European Space Agency Research and Science Support Department Planetary Missions Division | | | | | | |ROSETTA-COSIMA | | | |To Planetary Science Archive Interface | |Control Document | | | | | |FMI_S-COS-ICD-001-AD-043 | | | |Issue 1.21 | | | |12 December9 October 20086 | | | ______________________________________ Prepared by: Maria Genzer, Jouni Rynoe, FMI __________________________ Approved by: Johan Silen, FMI Distribution List |Recipient |Organisation |Recipient | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Change Log |Date |Sections Changed |Reasons for | | | |Change | |1 March 2004 |All sections |Draft 2 | |23.January.2006 |All sections |First official | | | |release | |9 October. 2006 |1.5, 2, 3,4.3 |Dataset delivery | | | |scheme updated, | | | |geometry | | | |information | | | |added. All the | | | |labels updated | |12 December 2008 | |Spectrum data | | | |contains mass | | | |scale | TBD ITEMS |Section |Description | |2 |Transformation of time-of-flight | | |spectra, level 2 to mass spectra, level | | |3 | Table Of Contents 1 Introduction 3 1.1 Purpose and Scope 3 1.2 Archiving Authorities 3 1.3 Contents 3 1.4 Intended Readership 3 1.5 Applicable and Reference Documents 3 1.6 Acronyms and Abbreviations 4 1.7 Contact Names and Addresses 5 2 Overview of Instrument Design, Data Handling Process and Product Generation 6 2.1 Scientific Objectives 6 2.2 Instrument sub-systems 7 2.2.1 TMU 8 2.2.2 COSISCOPE 10 2.2.3 Primary Ion Source (PIS) 10 2.2.4 Primary Ion Beam System (PIBS) 10 2.2.5 Time-Of-Flight Spectrometer (TOF) 10 2.2.6 TDC 10 2.3 Data Handling Process 11 2.4 Overview of Data Products 11 2.4.1 General 11 2.4.2 Software 12 2.4.2.1 Data processing software 12 2.4.2.2 Scientific analysis software 12 2.4.3 Documentation 12 2.4.4 Derived and other Data Products 13 2.4.5 Ancillary Data Usage 13 3 Archive Format and Content 14 3.1 Deliveries and Archive Volume Format 14 3.2 Conventions 14 3.2.1 Data Set ID Formation 14 3.2.2 Data Directory Naming Convention 15 3.2.3 Filenaming Convention COSIMA data products will be named as follows: 15 3.3 Standards Used in Data Product Generation 15 3.3.1 PDS Standards 15 3.3.2 Time Standards 15 3.3.2.1 Spacecraft Clock Count, OBT 15 3.3.3 Reference Systems 16 3.3.4 Other Applicable Standards 16 3.4 Data Validation 16 3.5 Content 16 3.5.1 Volume Set 16 3.5.2 Data Set 16 3.5.3 Directories 17 3.5.3.1 Root Directory 17 3.5.3.2 Calibration Directory 17 3.5.3.3 Catalog Directory 17 3.5.3.4 Index Directory 17 3.5.3.5 Browse Directory and Browse Files 17 3.5.3.6 Geometry Directory 17 3.5.3.7 Software Directory 17 3.5.3.8 Gazetter Directory 17 3.5.3.9 Label Directory 17 3.5.3.10 Document Directory 17 3.5.3.11 Extras Directory 17 3.5.3.12 Data Directory 17 4 Detailed Interface Specifications 18 4.1 Structure and Organization Overview 18 4.2 Data Sets, Definition and Content 18 4.3 Data Product Design 18 4.3.1 Time-of flight spectrum product 18 4.3.1.1 General description 18 4.3.1.2 Label example 18 4.3.2 Peak list product 20 4.3.2.1 General Description 20 4.3.2.2 Label example 20 4.3.3 Time-of-flight spectrum housekeeping data product 22 4.3.3.1 General description 22 4.3.3.2 Label example 22 4.3.4 COSISCOPE image product 45 4.3.4.1 General description 45 4.3.4.2 Label example 45 4.3.5 COSISCOPE dust grain list product 46 4.3.5.1 General description 46 4.3.5.2 Label template 46 4.3.6 COSISCOPE housekeeping product 48 4.3.6.1 General information 48 4.3.6.2 Label example 48 4.3.7 Substrate history ancillary product 60 4.3.7.1 General description 60 4.3.7.2 Label example 60 5 Appendix: Directory Listing of Data Set RO-CAL-COSIMA-3-V2.0 62 Introduction 1 Purpose and Scope The purpose of this EAICD (Experimenter to (Science) Archive Interface Control Document) is two fold. First it provides users of the the CosimaOSIMA instrument with a detailed description of the product and a description of how it was generated, including data sources and destinations. Secondly, it is the official interface between the CosimaOSIMA instrument team and Rosetta archiving authority. 2 Archiving Authorities ESA's Planetary Science Archive (PSA). 3 Contents This document describes the data flow of the COSIMA instrument on ROSETTA from the spacecraft until the insertion into the PSA for ESA. It includes information on how data were processed, formatted, labeled and uniquely identified. The document discusses general naming schemes for data volumes, data sets, data and label files. Standards used to generate the product are explained. Software that may be used to access the product is explained further on. The design of the data set structure and the data product is given. Examples of these are given in the appendix. 4 Intended Readership The staff of the archiving authority (Planetary Science Archive, ESA, RSSD, design team) and any potential user of the COSIMA data. 5 Applicable and Reference Documents [AD-01] Planetary Data System Data Preparation Workbook, February 17, 1995, Version 3.1, JPL, D-7669, Part 1 [AD-02] Planetary Data System Standards Reference, August 1, 2003, Version 3.6, JPL, D-7669, Part 2 [AD-03] ROSETTA Archive Generation, Validation and Transfer Plan, October 6, 2005, RO-EST-PL-5011, Issue 2, Revision 2 [AD-04] Rosetta Time Handling, February 28, 2006, RO-EST-TN- 3165, Issue 1, Revision 1 [RD-01] COSIMA User Manual, Version 3.02, 227 mberDeceJune 20057 [RD-02] Kissel et al:COSIMA, a High Resolution Time-of-Flight Secondary Ion Mass Spectrometer for the Analysis of Cometary Dust Particles"Kissel, J. et al., COSIMA - High resolution time-of- flight secondary ion mass spectrometer for the analysis of cometary dust particles onboard Rosetta, Space Sci. Rev., 128(1-4), 823-867, doi:10.1007/s11214-006-9083-0, 2007ublished in 2006)psubmitted to be ( [RD-03] Dahl, D.A., INEEL, Idaho Falls, Idaho 83415, DHL@inel.gov: The SIMION software manual, 1997 (and later versions). [RD-04] Engrand C., Kissel J., Krueger F.R., Martin P., Silen J., Thirkell L., Thomas R., Varmuza K.: " Chemometric evaluation of time-of-flight secondary ion mass spectrometry data of minerals in the frame of future in situ analyses of cometary material by COSIMA onboard ROSETTA", Rapid Commun. Mass Spectrom. 20, 1361-1368, 2006. [RD-05] Jessberger, E.K., J. Kissel (1991): Chemical properties of cometary dust and a note on carbon isotopes. in: Comets in the post-Halley era. Eds. R. Newburn, M. Neugebauer, J. Rahe. Springer Verlag, Heidelberg, 1075-1092 [RD-06] Kissel, J., R.Z. Sagdeev, J.L. Bertaux, V.N. Angarov, J. Audouze, J.E. Blamont, K. Buechler, H. von Hoerner, N.A. Inogamov, V.N. Khromov, W. Knabe, F.R. Krueger, Y. Langevin, A.C. Levasseur- Regourd, G.G. Managadze, S.N. Podkolzin, V.D. Sharipo, S.R. Tabaldyev, and B.V. Zubkov": "Composition of Comet Halley Dust Particles From VEGA Observations", NATURE, Vol.321, No.6067, 280-282, 1986. [RD-07] Kissel, J., D.E. Brownlee, K. Buechler, B.C. Clark, H. Fechtig, E. Gruen, K. Hornung, E.B. Igenbergs, E.K. Jessberger,F.R. Krueger, H. Kuczera, J.A.M. McDonnell, G.E. Morfill, J. Rahe, G.H. Schwehm, Z. Sekanina, N.G. Utterback, H.J. Voelk, and H. Zook: "Composition of Comet Halley Dust Particles From GIOTTO Observations", NATURE (Encounters with Comet Halley - The First Results), Vol. 321, NO. 6067, 336-337, 1986. [RD-08] Kissel, J. and F.R. Krueger: "The Organic Component in Dust From Comet Halley as Measured by the PUMA Mass-Spectrometer on Board VEGA 1", NATURE 326, 755-760, 1987. [RD-09] Krueger, F.R.: "Dust Collector Materials for SIMS Analysis in Space", A Feasibility Study for CoMA, part 1, Aug. 1988, part 2, Jan. 1989, and part 3, Sept. 1989. [RD-10] Krueger, F.R., A. Korth, and J. Kissel: "The Organic Matter of Comet Halley as Inferred by Joint Gas Phase and Solid Phase Analyses", Space Science Reviews 56, 167-175, 1991. [RD-11] Mamyrin B.A., V.I. Karatyev, D.V. Shmikk, and V.A. Zagulin: "Mass-Reflectron - A New High-Resolution Nonmagnetic Time- of-Flight Mass-Spectrometer" Zh Eksp. i Teor. Fiz. 64, 82 or: Sov. Phys. JETP 37, No.1, July 1973. [RD-12] Mazets, E.P., R.Z. Sagdeev, R.L. Aptekar, S.V. Golenetskii, Yu.A. Guryan, A.V. Dyachkov, V.N. Ilyinskii, V.N. Panov, G.G. Petrov, A.V. Savvin, I.A. Sokolov, D.D. Frederiks, N.G. Khavenson, V.D. Shapiro, and V.I. Shevchenko: "Dust in comet P/Halley from VEGA observations", Astronomy and Astrophysics, 187, 699-706, 1987. [RD-13] McDonnell, J.A.M., S.F. Green, E. Gruen, J. Kissel, S. Nappo, G.S. Pankiewicz, and C.H. Perry: "In Situ Exploration of the Dusty Coma of Comet P/Halley at Giotto's Encounter: Flux Rates and Time Profiles From 10-19 kg to 10-5 kg", Adv. Space Res. Vol.9, No.3, 277-280, 1989 . [RD-14] Schwab, M., CEMEC GmbH, Obererlbach, FRG: Design of the COSIMA Target Manipulator, (private communication), 1998. [RD-15] Stephan, T.: "TOF-SIMS in Cosmochemistry", Planet. Space Sci., 49, 859-906, 2001. [RD-16] Varmuza K., W. Werther, F.R. Krueger, J. Kissel, E.R. Schmid: "Organic substances in cometary grains: Comparison of secondary ion mass spectral data and californium-252 plasma desorption data from reference compounds", Int. J. Mass Spectrom., 189, 79-92, 1999. [RD-17] Varmuza K., Kissel J., Krueger F. R., Schmid E. R.: "Chemometrics and TOF-SIMS of organic compounds near a comet", in Advances in Mass Spectrometry, Gelpi E., Ed.; Wiley & Sons, Chichester, Vol. 15, p. 229-246, 2001. [RD-18] Werther W., Demuth W., Krueger F. R., Kissel J., Schmid E. R., Varmuza K.: "Evaluation of mass spectra from organic compounds assumed to be present in cometary grains. Exploratory data analysis", J. Chemom., 16, 99-110, 2002. [RD-19] Zscheeg, H, J. Kissel, Gh. Natour, and E. Vollmer: "CoMA - an Advanced Space Experiment For in Situ Analysis of Cometary Matter", Astrophsics and Space Science 195, 447-461, 1992. 6 Acronyms and Abbreviations ANCDR Ancillary Data Record COSIMA Cometary Secondary Ion Mass Analyzer DDS Data Distribution System ESA European Space Agency FM Flight Model FMI Finnish Meteorological Institute HVC High Voltage Control LVC Low Voltage Control MPS Max-Planc-Institut fuer Sonnensystemforschung PDS Planetary Data System PIS Primary Ion Source PIBS Primary Ion Beam System PDF Portable Document Format PSA Planetary Science Archive REFDR Reformatted Data Record RSDB Rosetta Database SIMS Secondary Ion Mass Spectrometer TBC To Be Confirmed TBD To Be Defined TBW To Be Written TDC Time-to-Digital Converter TMU Target Manipulator Unit TOF Time-Of-Flight UTC Universal Time Coordinated 7 Contact Names and Addresses PDS datasets: Finnish Meteorological Institute Johan Silen, Jouni Rynoe, Maria Genzer E-mail: firstname.lastname@fmi.fi Tel: + 358 9 19291 Fax: + 358 9 1929 4603 Address: Finnish Meteorological Institute Space Research P.O. Box 503 00101 Helsinki, Finland Science issues: Dr. Martin Hilchenbach Max-Planck-Institut fuer Sonnensystemforschung Max-Planck-Str. 2 37191 Katlenburg-Lindau Germany Tel: +49 5556 979 162 Fax +49 5556 979 240 Overview of Instrument Design, Data Handling Process and Product Generation 1 Scientific Objectives The in situ chemical analysis of solids in space is among the tasks which are technically most difficult. There are two main reasons for that: With a few exceptions solids in space are not abundant, and secondly it is not easy to remove small samples from the solid into the vacuum for the analysis in a mass spectrometer. For COSIMA the objects of interest are cometary dust particles, which are abundant, indeed, in the neighbourhood of the comet nucleus. It remains, however, to collect and bring the particles to the entrance of the spectrometer. Most mass spectrometers need parts of the sample to be analyzed, to carry an electronic charge. The process of removing an ion from the specimen is then the critical feature of the method to be chosen. The only mass spectrometric data on cometary dust particles available to date, come from the dust impact mass spectrometers PIA and PUMA on the GIOTTO and VEGA spacecrafts, respectively. While other, remote, or indirect methods allow measurements of collective properties of the cometary dust, the mass spectrometers allowed the analysis of individual particles (cf Kissel et al. 1986a+b). Since then we know unambiguously that each particle is an intimate mixture of a mineral core and ices, and simple as well as complex organic molecules. Since the impact velocity was large (>60 km/s) mostly atomic ions were formed and analyzed in the Halley case. In a first attempt, however, Kissel and Krueger (1987) found evidence for the chemical nature of the organic cometary material. It is clear that not a few well known molecules constitute the cometary organics, but rather some chemical classes, with each being represented by a large number of individual substances. Indeed, it seems, that all stable molecules compatible with the chemical environment are formed and even cross-linked between them. COSIMA therefore needed to be based on a method which is readily available in laboratory, and which allows for tracing the ion directly to the molecular and structural form in which it was present in the solid. Since the size distribution of the dust particles is known (cf, Mazets et al. 1987, McDonnell et al. 1989) a reasonable ionizing beam focus should be achieved under the limitations of space instrumentation. Even though the method would be destructive, its sensitivity should be high enough to allow several analyses at different depths for one individual, say 20 um particle. To satisfy all these requirements we choose the method of Secondary Ion Mass Spectroscopy (SIMS). A fast primary ion, in this case 115In+ at 10 keV, impacts the sample and releases by desorption molecules of the material under test, of which typically 0.1 to 10 % are ionized, the so-called secondary ions. For sensitivity reasons, the analysis of a rather large mass range should be achieved simultaneously, which in turn leads to the type of a time-of-flight mass spectrometer. The mass resolution must be high enough to resolve isobaric ions, at least between atomic and molecular ions. The total ion mass should at least cover 3500 Da. In total, the COSIMA instrument has the following main functional hardware elements: * the dust collector and target manipulator (TMU), * COSISCOPE, a microscope CCD camera for target inspection, * the primary ion source, * the mass spectrometer including the ion extraction optics and the ion detector * Electronics and computer. It should be mentioned at this point, that COSIMA did profit from but is not identical to the earlier development of the CoMA instrument for the NASA mission CRAF (Zscheeg, 1992) which was canceled in 1992. The entire development of COSIMA was challenged by the complexity of the cometary material which has to be expected. This has focused the goal of COSIMA on the identification of chemical classes and functional groups rather than the identification of individual substances. Consequently the system must have the capability to use the methods of chemometry to compress the raw data on board, which helps to reduce the data volume without losing any of the chemical information. There is also another important aspect for COSIMA, which comes from the rather long time the spacecraft travels from launch in 2004 until the core of the measurements takes place in 2014: Quite a large number of relevant results will be obtained from laboratory measurements with TOF SIMS, be it by the COSIMA team or be it in the published literature. In addition, NASA in its DISCOVERY program has several comet missions, which are expected to produce new, relevant data, before COSIMA enters its main analysis phase. Even if most of the flexibility is with the software involved, it is the hardware, which has to provide the resources necessary. Looking back at the fast development in the computer sector over the last ten years this alone is a demanding task, even without the complexity of an up to date analysis instrument. The scientific return from COSIMA consists primarily of time-of- flight spectra supported by housekeeping data. In addition to this, a limited number of peaks presented as a peak list, may be available. The time-of-flight spectra are archived according to standard PDS rules. These spectra may be later calibrated to mass spectra. Calibration TBD.are calibrated to a preliminary mass scale by automatic software. In addition to time-of-flight spectra, pictures of dust targets (substrates) taken by COSISCOPE camera, and lists of dust grains found on the targets, are also archived. Operational history of each target substrate is given. The history contains information about substrate storage and expose periods, cleaning and heating actions, COSISCOPE camera images and grains lists and any spectra taken. The history product contains history from the moment substrates were installed in the COSIMA flight instrument. 2 Instrument sub-systems COSIMA sub-systems are described in more detail in COSIMA paper [RD2]. Only a brief description is given here, as the paper can found in ASCII and in PDF form from the DOCUMENT directory. 1 TMU The Target Manipulator Unit keeps track of, stores and moves dust collection substrates in the instrument. There are total of 24 target holders, each containing 3 substrates. The substrate itself is a 10*10 millimeter plate, each having different chemical properties.The TMU can also be used to scan a substrate in front of an ion beam. The operation of the TMU is constrained by heat dissipation and is in general slow (tens of minutes per operation). The substrates can have the following position identifications:: DEPOSIT, to be positioned STORAGE, in target storage GRASPED, moved by the TMU IMAGE, substrate image GRAINS, dust position list PEAKS, peak list acquisition SCAN, total count acquition SPECTRUM, spectrum acquistion EXPOSE, exposed to the outside CLEAN, at beam cleaning position CHEMISTRY, at heating station In the substrate history, if the substrate is not in the STORAGE, EXPOSE or CHEMISTRY position, it is grasped by the TMU and usually moved to the analysis position for SPECTRUM, SCAN or PEAKS or in front of the COSISCOPE for IMAGE or GRAINS. The 24 target holders are numbered with hexadecimal numbers from #C1 to #D8. The top substrate is marked with the number #100, the middle with #200 and the low with #300. The combination of these numbers give the substrate identification number used in the instrument commanding and data handling. The subsrates have the following properties: #1C1 Palladium, black #2C1 Platinum, deep black #3C1 Platinum, deep black #1C2 Silver, 73 micrometer thickness, blank with rectangular hole 3.5x3.5mm #2C2 Silver, 69 micrometer thickness,blank with AgTe spot of about 3 mm size at center #3C2 Gold, 17 micrometer thickness, olivine particles #1C3 Gold, 8 micrometer thickness #2C3 Gold, 15 micrometer thickness #3C3 Gold, 20-30 micrometer thickness #1C4 Palladium, black #2C4 Silver, 14 micrometer thickness #3C4 Gold, 12 micrometer thickness #1C5 Platinum, light black, #2C5 Platinum, deep black #3C5 Gold, 13 micrometer thickness #1C6 Platinum, deep black #2C6 Platinum, deep black #3C6 Gold, 8 micrometer thickness #1C7 Silver, blank #2C7 Silver, 21 micrometer thickness #3C7 Gold, 15 micrometer thickness #1C8 Platinum, deep black #2C8 Platinum, deep black #3C8 Gold, 20-30 micrometer thickness #1C9 Gold, 5-8 micrometer thickness #2C9 Gold, 5-8 micrometer thickness #3C9 Gold, 11 micrometer thickness #1CA Gold, 5-8 micrometer thickness #2CA Gold, 16 micrometer thickness #3CA Silver, 10 micrometer thickness #1CB Gold, 17 micrometer thickness #2CB Gold, 14 micrometer thickness #3CB Gold, 20-30 micrometer thickness #1CC Silver, 21 micrometer thickness #2CC Silver, 21 micrometer thickness #3CC Silver, 24 micrometer thickness #1CD Gold, 5-8 micrometer thickness #2CD Gold, 14 micrometer thickness #3CD Gold, 20-30 micrometer thickness #1CE Gold, 5-8 micrometer thickness, Ag particles #2CE Gold, 11 micrometer thickness #3CE Gold, 20-30 micrometer thickness #1CF Gold, 8 micrometer thickness #2CF Gold, 12 micrometer thickness, Ag particles #3CF Gold, 20-30 micrometer thickness #1D0 Gold, 20-30 micrometer thickness #2D0 Gold, 20-30 micrometer thickness #3D0 Gold, 20-30 micrometer thickness, Ag particles #1D1 Silver, blank #2D1 Gold, 13 micrometer thickness #3D1 Gold, 13 micrometer thickness #1D2 Gold, 8 micrometer thickness #2D2 Gold, 8 micrometer thickness #3D2 Silver, 30 micrometer thickness #1D3 Silver, 10 micrometer thickness #2D3 Silver, 10 micrometer thickness #3D3 Silver, 32 micrometer thickness #1D4 Platinum, sintered #2D4 Platinum, deep black #3D4 Platinum, deep black #1D5 Platinum, deep black #2D5 Silver, 22 micrometer thickness #3D5 Silver, 21 micrometer thickness #1D6 Platinum, deep black #2D6 Palladium, black #3D6 Platinum, deep black #1D7 Silver, blank #2D7 Platinum, sintered #3D7 Platinum, sintered #1D8 Silver, blank, square hole 3.5x3.5mm at center #2D8 Silver, blank #3D8 Gold, 8 micrometer thickness Positions in the substrate are given in substrate coordinates, which have the origin at lower left corner and range from 0 to 10000 micrometers in both horizontal (X) and vertical (Y) direction. 2 COSISCOPE COSISCOPE is a CCD camera that is used to take pictures of TMU target substrates and find dust grains on them. COSISCOPE returns CCD images and grain lists with dust grain coordinates, sizes and brightness properties. The gray image has a 10 bit depth with resolution of 1024*1024 pixels and covers an area of 14*14 millimeters. The COSISCOPE pixel coordinates are converted to substrate coordinates, which have the origin at lower left corner and range from 0 to 10000 micrometers in both horizontal (X) and vertical (Y) direction. 3 Primary Ion Source (PIS) The Primary Ion Source provides isotopically clean 115In+. The ion source has a limited lifetime of nominally 2000 hours. After a long period of inactivity it may be difficult to start. The instrument contains two ion sources, both of which can be used. The startup of the PIS is slow (~ 0.5-1 hour). PIS has two ion sources, A (stands for 'Analyse') and C (stands for 'Clean'). A is primarily used for analysis operations, and C for cleaning operations. 4 Primary Ion Beam System (PIBS) The Primary Ion Beam System focuses, bunches and deflects ions into periodic pulse trains to hit the dust grains to be analyzed. The beam thickness is less than 100 um and the pulse width a few ns. The PIBS can also be used to clean the target by a continuous beam. The instrument contains one analysis beam and one cleaning beam, each of which can use either ion source. Ions from two emitters (A and C) can reach either of two positions: 'Analyze' or 'Clean', depending of the Beam Switch (BS) in the center. The focusing elements are electrically shared, as only one beam can be active at any time. Chopper and Bunchers (CB) provide the pulsed beam for analysis, the deflection plates (PX,PY) are used for steering the beam spot on the target. On the analyse channel, a first lens LA1 (or LC1 in the backup configuration) gives an image of the emitter in the inlet plane of the CHOPPER, then the buncher compresses the ion beam into the short pulses required on the target. A second lens LA2 builds the final image on the target sample. The other ion beam used for cleaning has a first lens LC1 (or LA1 in the backup configuration), which gives an image used by LC2 to build the final image on the target in the clean position. The ion beam for cleaning is not pulsed. 5 Time-Of-Flight Spectrometer (TOF) The Time Of Flight spectrometer consists of an ion extraction part, an ion reflectron and a detector. The ion extraction section is equipped with deflection plates (TX, TY) to control which ions can reach the detector. The reflectron removes some energy dispersion of incident ions and improves the mass resolution of the instrument. The detector is of micro sphere type. 6 TDC The Time to Digital Converter is a digital counter measuring the time of flight for each individual ion. The device is controlled by the onboard computer. The accumulated measurement represents the time-of-flight spectrum of COSIMA. 3 Data Handling Process All PDS data products will be prepared at the Finnish Meteorological Institute (see chapter 1.7 for contact information). All data processing levels mentioned in this document are PSA- compliant, as defined in RO-EST-PL-5011. Level 1a COSIMA data will be fetched from the Rosetta Data Distribution System (DDS) by FMI, where it will be processed to Level 2 (REFDR), and further to Level 3 products. COSIMA Level 2 (REFDR) products are: * Time-of-flight spectra, with automatically calibrated mass scale and relevant housekeeping data. Spectra can be of either Positive or Negative ions. * Onboard calculated peak list and relevant housekeeping data. The spectrum is given as counts per integer mass lines, separated to organic and inorcanic massed. * Substrate images. The images can be illuminated with either plus (right) side or minus (left) side led. * Substrate dust grain feature (position, size, brightness) lists and relevant housekeeping data. * Substrate history (auxiliary data) The mass scale is calibrated with only two lines: * positive mode H or 12C for low masses 115In or 107Ag or 109Ag for high masses * negative mode H or CH for low masses Cl or Br for high masses There is no dead time correction nor background removal. The user should always check the calibration for any scientific analysis. For the peak lists, the separation between organic and inorganic peaks is done according to the following formula: Starting from the integer mass (M), the bin interval for the * inorganic ions: M*1.0003 - dm ... M*1.0003 * organic ions: M*1.0003 ... M*1.0003 + dm where dm = 0.2 Level 3 products will be: Calibrated mass spectra with relevant housekeeping data. Where possible, the time of flight spectra will be converted to mass spectra by automatic software. Some spectra will be checked by hand and marked as such in the data quality flags. The format of this data product is still TBD.For the calculated mass scale, a confidence number is calculated. This number is the procentual amount of counts inside the mass windows compared to the total counts. The mass window is defined as m*f +- m^p*q, where p = log(0.3/0.05)/log(300/12) q = 0.0.5 / (12^p) which gives mass 12+-0.05 and mass 300+-0.3. If suitable peaks to establish the scale cannot be found, the confidence number is 0.0% and the mass scale is calculated from the default values. In the products PDS header there is a label DATA_QUALITY_ID. This is "-1", when the mass scale is calculated by the software. In the future, when real comet dust spectra will be analyzed, the flag may change to inform, that the mass scale is established either by human or more advanced analysis software. When that happens, the product label will contain the description of the new flag values. The HK data for the spectra and images is given in already calibrated form, without raw values. They can be used to check, if there's some instrument setup reason, why the spectrum signal to noise ratio or peak shape is as it is. The HK values don't contribute anything numerical to the spectrum mass scaling and are for background information only. The same goes with the image data. It should be pointed out, that an established mass scale is already an interpretation of the data and regardless of the flag, each data user should check the scale. 4 Overview of Data Products 1 General COSIMA contains 24 target holders, each having three different substrates for dust collection. From data analysis point of view, each substrate has different history. Each substrate can be exposed to dust, heated, imaged with COSISCOPE, and measured and cleaned by ion beam. The data user should start the data analysis from the substrate history file stored in the substrate subdirectory in the data directory, The history fileshistory filessubstrate The . y contain time ordered information from actions taken with the substrate in question. For exposure, heating and storage there is only the time period. For the following products the archive pointer is given: * time of flight ion spectrum. The main product of COSIMA, taken from a small area from the substrate surface. The preliminary mass scale is automatically generated with the equivalent software as onboard COSIMA for the peak list generation. For the comet phase data, the mass scale may also be established by a human or more advanced analysis software, case by case. * peak list. The peak list is generated onboard COSIMA for integer mass lines for organic and inorganic masses separately. It may be used for pre-analysis of the grains, when full spectra would be too large to send due to operational and telemetry quota constrains * image. The image is a COSISCOPE compressed image take from the whole substrate. The transmitted image may also contain only a subset of the image * grain list. The COSISCOPE can detect individual dust grains from the substrate surface and provide them as a list with position, size and illumination characteristics. The relevant calibrated housekeeping data is provided together the data products. for background information. They don't contribute anything numerical to the data products calibration. During the ground calibration phase only few substrates were actively used for instrument calibration. These operations must be anyway used for background information in interpreting data during the comet phase. Before the comet phase no real science is expected to be available from data. Geometry information for the COSIMA products is not available. As the substrate exposure will take at least hours, oftenr days, there is no simple way to tell, where the dust particles originate from. The data user should pick the exposure period(s) from the substrate history file and make his/her own judgement. The time the individual spectrum or peak list product is made, has no connection to the time the dust particle is collected. 2 Software 1 Data processing software An automatic script will retrieve data from the DDS and store it in an internal database. The housekeeping data will be plotted internally to check the general status of the instrument. For PSA-compliant level 2 products generation (REFDR), data is retrieved from the internal database. The housekeeping data is calibrated with calibration coefficients stored in the RSDB, resulting in physical units. PDS data products are formed from mass spectra time series, COSISCOPE grain lists, COSISCOPE images, and calibrated housekeeping data. Peaks, images, and grain lists will need no additional calibration. In addition, target substrate history will be assembled as ancillary data products. This software producing level 2 data from level 1b data stored in the internal database will be used only by the data producers and will not be archived. Transformation of TOF spectra into mass spectra is TBD.done automatically with the equivalent software onboard the COSIMA instrument. See chapter 2.3. 2 Scientific analysis software N/A. Data product files will be either ASCII TABLEs or IMAGEs. 3 Documentation The COSIMA instrument is extensively described in a paper "COSIMA, a High Resolution Time of Flight Spectrometer for Secondary Ion Mass Spectroscopy of Cometary Dust Particles" by Kissel et.al. [RD-02]. That paper together with this EAICD can be found from the DOCUMENT directory. 4 Derived and other Data Products N/A 5 Ancillary Data Usage The COSIMA instrument measures "off-line" in the sense that target assemblies are exposed independently of any spacecraft or COSIMA activity. For each target substrate, a list containing substrate history, including exposure time period, heating in the chemistry station, cleaning, analyzing and imaging is provided. The list is formatted as a table and stored in the same directory with the science products obtained from that substrate. As stated in the 2.4.1, these history files are the starting point of the COSIMA data analysis. Archive Format and Content 1 Deliveries and Archive Volume Format There will be only one dataset available at all times. For all the pre-comet phases, it will be named RO-CAL-COSIMA-3-Vx.y. For the comet phase, the dataset name will be changed to RO-C-COSIMA-3- Vx.y. For each delivery, the new data is incremented to the old data and the major version number is incremented by one. This scheme is used to make sure, that the data user always have the full substrate history available. The history products are essential in the spectrum interpretation and are the recommed starting point for the data browsing.The following delivery schedule is expected: |dataset ID |coverage |date | |RO-CAL-COSIMA-2-V1.0 |Ground calibration, |2006 | | |commissioning, first | | | |cruise phases. No mass| | | |scale available | | |RO-CAL-COSIMA-3-V2.0 |adds active checkout |2008 | | |data up to PC8 | | |RO-CAL-COSIMA-3-V3.0 |adds active checkout |2009 | | |data up to Steins and | | | |PC10 | | |RO-CAL-COSIMA-3-V4.0 |adds active checkout |2010 | | |data | | |RO-C-COSIMA-3-V1.0 |adds comet approach |mid 2014 | | |data | | |RO-C-COSIMA-3-V2.0 |adds close |end 2014 | | |observations data | | |RO-C-COSIMA-3-V3.0 |adds comet escort data|mid 2015 | |RO-C-COSIMA-3-V4.0 |adds comet escort data|end 2015 | |RO-C-COSIMA-3-V5.0 |adds comet escort data|mid 2016 | |RO-C-COSIMA-3-V6.0 |adds final data |end 2016 | The passive checkouts do not contribute much to the dataset, only one target is taken from the target storage and deposited back. No measurements are made. The dataset is organiszed according to tree structure in the igure 2fillustration 3.1. 2 Conventions 1 Data Set ID Formation Data set ID will be formed according to PDS standards and following the Rosetta Archive Plan (RO-EST-PL-5011). It will have the following components: * Instrument host: RO * Target: CAL for pre-flight data set, C for in-flight data set * Instrument: COS * Data processing level number, 3.2 for datasets, where the mass scale for the spectra is not established * Version number The pre-comet dataset naming is thus starting from "RO-CAL-COSIMA-2-V1.0" and changed in the comet phase to names starting from "RO-C-COSIMA-3-V1.0" 2 Data Directory Naming Convention /DATA directory be divided to subdirectories for each Cosima target substrate. The subdirectory names will be of format SUB_YXX, where Y (1-3) is the substrate position in the target assembly, and XX is target assembly ID numbered from C1 to D8 hexadecimal. For example: SUB_1C1, SUB_2C1, etc. Substrate numbering is also explained in Chapter 4.1 3 Filenaming Convention COSIMA data products will be named as follows: * Spectra: CS_YXX_YYYYMMDDThhmmss_SP_Z.TAB, where YXX is substrate code as defined above (chapter 3.2.2), and Z is either 'P' for positive or 'N' for negative ions. * Peak lists: CS_YXX_YYYYMMDDThhmmss_PK_Z.TAB, where YXX and Z as above. * Cosiscope images of substrates: CS_YXX_YYYYMMDDThhmmss_IM_Z.IMG, where YXX as above, and Z is either 'P' for plus side led or 'M' for minus side led illumination. * Grain lists: CS_YXX_YYYYMMDDThhmmss_GR__.TAB, where YXX as above. * Housekeeping files: CS_YXX_YYYYMMDDThhmmss_S_HK.TAB (for spectra and peak lists) or CS_YXX_YYYYMMDDThhmmss_G_HK.TAB (for images and grain lists). YXX as above. * Substrate history (ancillary data): CS_YXX_SUBSTRATE_HISTORY.TAB YYYYMMDDThhmmss is the date and time of operation start in UTC. 3 Standards Used in Data Product Generation 1 PDS Standards PDS standard used is 3.6. All data processing levels mentioned in this document are PSA-compliant, as defined in RO-EST-PL-5011. 2 Time Standards Time standard used is UTC. Time format is YYYY-MM-DDThh:mm:ss. 1 Spacecraft Clock Count, OBT The PDS keywords SPACECRAFT_CLOCK_START_COUNT and SPACECRAFT_CLOCK_STOP_COUNT refer to OBT as defined in [AD 04, Rosetta Time Handling, chapter 4.2]] The header of the experiment telemetry source packets contains the data acquisition start time in OBT as 32 bit of unit seconds followed by 16 bit of fractional seconds (see section 2.3). OBT = 0 is at 2003-01-01-T00:00:00 UTC. The time resolution is 2^-16 = 1.53*10-5 seconds. The OBT is represented in the following format: SPACECRAFT_CLOCK_START/STOP_COUNT = "/." The unit seconds and the fractional seconds are separated by the full stop character. Note that this is not a decimal point. The fractional seconds are expressed as multiples of 2^-16 = 1.53*10-5216 seconds and count from 0 to 2^16-1=65535. E.g. in SPACECRAFT_CLOCK_START_COUNT = "1/21983325.392" the 392 fractional seconds correspond to 392*2^-16 = 0.00598 decimal seconds. The spacecraft clock could be reset during the mission (although this is not planned). This would imply a change of the zero point. The zero point of the OBT will be indicated by pre-pending the reset number (integer starting at 1) and a slash to the unit seconds, i.e. "1/" means OBT = 0 at 2003-01-01T00:00:00 UTC. Examples: SPACECRAFT_CLOCK_START_COUNT = "1/21983325.39258" SPACECRAFT_CLOCK_START_COUNT = "1/21983325.392" SPACECRAFT_CLOCK_STOP_COUNT = "1/21983342" 3 Reference Systems N/A 4 Other Applicable Standards N/A 4 Data Validation Formats will be checked with PSA Validation and Verification Tool. The instrument data is validated according to the outline of the COSIMA proposal and the COSIMA instrument paper (Kissel et al, to be published in 2006 within the frame of the ROSETTA instrument papers). COSIMA consists of groups in France, Finland and Germany and CoIs ins the US, Austria and The Netherlands. The COSIMA laboratory reference model is located at the Max-Planck-Insitut for Solar System Research in Katlenburg-Lindau, Germany. The COSIMA instrument is operated by FMI in Helsinki, Finland and MPS in Lindau, Germany. The reference model is used for calibration and cross-reference measurements of the COSIMA flight model. The flight data will be analysed in a near time frame. Since COSIMA stores the original cometary samples, with this approach interesting samples can be screened again, e.g. with an improved count statistics. The science goals are achieved in the pre-comet rendevous phase preparation with the reference model laboratory measurements and with the operational scenario of COSIMA in the comet orbiting phase of ROSETTA. 5 Content 1 Volume Set 1 volume will contain 1 COSIMA data set. Data set structure is defined in Chapter 3.1. 2 Data Set COSIMA data will form one data set. It will contain time-of- flight spectra, peaks lists, target substrate images, grain lists and target history (ancillary data) obtained after the flight targets were installed in the flying instrument (XM). The data set will be named according to PDS standards and following the Rosetta Archive Plan (RO-EST-PL-5011). Each component of the name will match the corresponding component of the data set ID. Data set name components are: * Instrument host: ROSETTA-ORBITER * Target: CAL for pre-comet phase, 67P for comet phasedata sets * Instrument name: COSIMA * Data processing level, 32 for dataset, where the spectrum mass scale is not established * Version number Example: "ROSETTA-ORBITER 67P COSIMA 32 V3.0" 3 Directories 1 Root Directory General archive description: AAREADME.TXT, VOLDESC.CAT 2 Calibration Directory N/A 3 Catalog Directory CATINFO.TXT MISSION.CAT and INSTHOST.CAT from ESA - Mission and spacecraft descriptions. INST.CAT - Instrument description DATASET.CAT - Dataset description REF.CAT - References SOFTWARE.CAT - empty for COSIMA datasets. PERSON.CAT - COSIMA contacts RELEASE.CAT - Release description TARGET.CAT - Target descriptions 4 Index Directory INDXINFO.TXT, INDEX.LBL and INDEX.TAB 5 Browse Directory and Browse Files N/A 6 Geometry Directory N/A 7 Software Directory N/A 8 Gazetter Directory N/A 9 Label Directory LABINFO.TXT Format containers (*.FMT) 10 Document Directory COSIMASIS: This EAICD with detached labels and images in JPG format. COSIMAPAPER: COSIMA instrument paper with detached labels and images in JPG format 11 Extras Directory N/A 12 Data Directory See chapter 3.2.2. Detailed Interface Specifications 1 Structure and Organization Overview /DATA directory will be divided to sub-directories for each COSIMA target substrate. Names of these sub-directories will follow the scheme defined in chapter 3.2.2. The target substrate code in the directory name consists of 3 alphanumeric characters. The last two characters represent hexadecimal code of the target substrate. There are 24 target assemblies, numbered C1-D8 (hex). Each assembly holds 3 substrates, resulting in total of 72 substrates. The first character in the code is a number defining the substrate position in the assembly. Possible numbers are 1,2 and 3 for top, middle and low substrate, respectively. Thus directory name SUB_1C1 identifies that the data inside contains measurements of top substrate of target assembly C1. Other directories containing measurements of target assembly C1 are SUB_2C1 and SUB_3C1. Data products will be stored in sub-directories SUB_XYY. File naming of the data files is described in chapter 3.2.3. Each sub- directory SUB_XYY will also include the history of that substrate. The history contains information about substrate storage and expose periods, cleaning and heating actions, COSISCOPE camera images and grains lists and any spectra taken. The history product contains history from the moment substrates were installed in the COSIMA flight instrument. 2 Data Sets, Definition and Content See chapter 3.5.2. 3 Data Product Design 1 Time-of flight spectrum product 1 General description COSIMA time-of-flight spectrum product has the following elements: * Time-of-flight spectrum: event count series in ascii format. * Event count: number of events in a time bin. * Mass: calibrated mass for the time bin. 2 Label example PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.1" /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 30 FILE_RECORDS = 131185 LABEL_RECORDS = 112 /* POINTER TO DATA OBJECTS */ ^SCALE_TABLE = 113 ^MASS_SPECTRUM_TABLE = 114 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_2D8_20070927T182348_SP_P.TAB" DATA_SET_ID = "RO-CAL-COSIMA-3-V2.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 3 V2.0" PRODUCT_ID = "CS_2D8_20070927T182348_SP_P.TAB" PRODUCT_CREATION_TIME = 2008-11-12T09:15:39 PRODUCT_TYPE = "REFDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "EARTH SWING-BY 2" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "SPECTRUM" INSTRUMENT_MODE_DESC = "TIME OF FLIGHT MASS SPECTRUM MEASUREMENT" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2007-09-27T18:23:48 STOP_TIME = 2007-09-27T18:33:53 SPACECRAFT_CLOCK_START_COUNT = "1/0149538196.41251" SPACECRAFT_CLOCK_STOP_COUNT = "1/0149538801.41245" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "2D8" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, blank" ROSETTA:COSIMA_SUBSTRATE_X = 5000 ROSETTA:COSIMA_SUBSTRATE_Y = 5000 ROSETTA:COSIMA_SPECTRUM_POL = "POSITIVE" ROSETTA:COSIMA_SPECTRUM_SHOTS = 795091 OBJECT = SCALE_TABLE NAME = SCALE INTERCHANGE_FORMAT = ASCII ROWS = 1 COLUMNS = 3 ROW_BYTES = 30 ^STRUCTURE = "COSIMA_SPECTRUM_PEAK_SCALE.FMT" DESCRIPTION = "COSIMA PEAK LIST MASS SCALE" END_OBJECT = SCALE_TABLE OBJECT = MASS_SPECTRUM_TABLE NAME = MASS_SPECTRUM INTERCHANGE_FORMAT = ASCII ROWS = 131072 COLUMNS = 3 ROW_BYTES = 30 ^STRUCTURE = "COSIMA_SPECTRUM_DATA.FMT" DESCRIPTION = "COSIMA TIME OF FLIGHT MASS SPECTRUM" END_OBJECT = MASS_SPECTRUM_TABLE END COSIMA_SPECTRUM_PEAK_SCALE.FMT OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = SCALE_A DATA_TYPE = ASCII_REAL START_BYTE = 1 BYTES = 10 FORMAT = "F10.2" DESCRIPTION = "FACTOR A FROM THE TIME TO MASS FUNCTION T = A * SQRT(M) + B" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = SCALE_B DATA_TYPE = ASCII_REAL START_BYTE = 12 BYTES = 10 FORMAT = "F10.2" DESCRIPTION = "FACTOR B FROM THE TIME TO MASS FUNCTION T = A * SQRT(M) + B" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = SCALE_CONFIDENCE DATA_TYPE = ASCII_REAL START_BYTE = 23 BYTES = 5 FORMAT = "F5.1" DESCRIPTION = "MASS SCALE CONFIDENCE LEVEL IN PROCENTS" PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.0" RELEASE_ID = 0001 REVISION_ID = 0000 /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 12 FILE_RECORDS = 131366 LABEL_RECORDS = 294 /* POINTER TO DATA OBJECT */ ^SERIES = 295 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_1C2_20020610T145823_SP_P.TAB" DATA_SET_ID = "RO-CAL-COSIMA-2-V1.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 2 V1.0" PRODUCT_ID = "CS_1C2_20020610T145823_SP_P" PRODUCT_CREATION_TIME = 2006-09-25T00:48:47 PRODUCT_TYPE = "REFDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "GROUND" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "SPECTRUM" INSTRUMENT_MODE_DESC = "TIME OF FLIGHT MASS SPECTRUM MEASUREMENT" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2002-06-10T14:58:23 STOP_TIME = 2002-06-10T14:59:09 SPACECRAFT_CLOCK_START_COUNT = " N/A" SPACECRAFT_CLOCK_STOP_COUNT = " N/A" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "1C2" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, 73 micrometer thickness, blank with rectangular hole 3.5x3.5mm" ROSETTA:COSIMA_SUBSTRATE_X = 8000 ROSETTA:COSIMA_SUBSTRATE_Y = 5500 ROSETTA:COSIMA_SPECTRUM_POL = "POSITIVE" ROSETTA:COSIMA_SPECTRUM_SHOTS = 11358 OBJECT = SERIES NAME = MASS_SPECTRUM INTERCHANGE_FORMAT = ASCII ROWS = 131072 COLUMNS = 1 ROW_BYTES = 10 ROW_SUFFIX_BYTES = 2 SAMPLING_PARAMETER_NAME = TIME SAMPLING_PARAMETER_UNIT = SECOND SAMPLING_PARAMETER_INTERVAL = 0.000000001953125 DESCRIPTION = "COSIMA TIME OF FLIGTH MASS SPECTRUM" OBJECT = COLUMN NAME = MASS_COUNT DATA_TYPE = ASCII_INTEGER START_BYTE = 1 BYTES = 10 MISSING_CONSTANT = -1 FORMAT = I10 DESCRIPTION = "EVENT COUNT AT THE TIME BIN" END_OBJECT = COLUMN END_OBJECT = SERIES END END_OBJECT = COLUMN COSIMA_SPECTRUM_DATA.FMT OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = INDEX DATA_TYPE = ASCII_INTEGER START_BYTE = 1 BYTES = 6 FORMAT = "I6" DESCRIPTION = "TIME OF FLIGHT TIME STEP INDEX. TIME STEP IS 0.000000001953125 SECONDS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = MASS_COUNT DATA_TYPE = ASCII_INTEGER START_BYTE = 8 BYTES = 10 FORMAT = "I10" DESCRIPTION = "TIME INTEGRAGED MASS COUNT AT THE TIME STEP" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = MASS_NUMBER DATA_TYPE = ASCII_REAL START_BYTE = 19 BYTES = 10 FORMAT = "F10.5" DESCRIPTION = "CALIBRATED MASS NUMBER AT THE TIME STEP" END_OBJECT = COLUMN 2 Peak list product 1 General Description COSIMA peak list has the following elements: * Instrument onboard calculated mass scale. * Peak list for organic and inorganic masses 2 Label example PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.1" /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 29 FILE_RECORDS = 446 LABEL_RECORDS = 115 /* POINTERS TO DATA OBJECTS */ ^SCALE_TABLE = 116 ^PEAK_TABLE = 117 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_2D8_20070927T184705_PK_N.TAB" DATA_SET_ID = "RO-CAL-COSIMA-3-V2.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 3 V2.0" PRODUCT_ID = "CS_2D8_20070927T184705_PK_N.TAB" PRODUCT_CREATION_TIME = 2008-11-12T09:15:40 PRODUCT_TYPE = "REFDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "EARTH SWING-BY 2" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "SPECTRUM" INSTRUMENT_MODE_DESC = "TIME OF FLIGHT MASS SPECTRUM MEASUREMENT" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2007-09-27T18:47:05 STOP_TIME = 2007-09-27T18:57:10 SPACECRAFT_CLOCK_START_COUNT = "1/0149539593.41237" SPACECRAFT_CLOCK_STOP_COUNT = "1/0149540198.41230" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "2D8" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, blank" ROSETTA:COSIMA_SUBSTRATE_X = 5000 ROSETTA:COSIMA_SUBSTRATE_Y = 5000 ROSETTA:COSIMA_SPECTRUM_POL = "NEGATIVE" ROSETTA:COSIMA_SPECTRUM_SHOTS = 828459 OBJECT = SCALE_TABLE NAME = SCALE INTERCHANGE_FORMAT = ASCII ROWS = 1 COLUMNS = 3 ROW_BYTES = 29 ^STRUCTURE = "COSIMA_SPECTRUM_PEAK_SCALE.FMT" DESCRIPTION = "COSIMA PEAK LIST MASS SCALE" END_OBJECT = SCALE_TABLE OBJECT = PEAK_TABLE NAME = PEAK_LIST INTERCHANGE_FORMAT = ASCII ROWS = 330 COLUMNS = 3 ROW_BYTES = 29 ^STRUCTURE = "COSIMA_SPECTRUM_PEAKS.FMT" DESCRIPTION = "COSIMA SPECTRUM PEAK LIST" END_OBJECT = PEAK_TABLE PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.0" RELEASE_ID = 0001 REVISION_ID = 0000 /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 29 FILE_RECORDS = 421 LABEL_RECORDS = 120 /* POINTERS TO DATA OBJECTS */ ^SCALE_TABLE = 121 ^PEAK_TABLE = 122 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_1C2_20020619T090349_PK_N.TAB" DATA_SET_ID = "RO-CAL-COSIMA-2-V1.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 2 V1.0" PRODUCT_ID = "CS_1C2_20020619T090349_PK_N" PRODUCT_CREATION_TIME = 2006-09-27T12:03:15 PRODUCT_TYPE = "REFDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "GROUND" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "SPECTRUM" INSTRUMENT_MODE_DESC = "TIME OF FLIGHT MASS SPECTRUM MEASUREMENT" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2002-06-19T09:03:49 STOP_TIME = 2002-06-19T09:03:49 SPACECRAFT_CLOCK_START_COUNT = " N/A" SPACECRAFT_CLOCK_STOP_COUNT = " N/A" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "1C2" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, 73 micrometer thickness, blank with rectangular hole 3.5x3.5mm" ROSETTA:COSIMA_SUBSTRATE_X = 8500 ROSETTA:COSIMA_SUBSTRATE_Y = 5500 ROSETTA:COSIMA_SPECTRUM_POL = "NEGATIVE" ROSETTA:COSIMA_SPECTRUM_SHOTS = 34352 OBJECT = SCALE_TABLE NAME = SCALE INTERCHANGE_FORMAT = ASCII ROWS = 1 COLUMNS = 3 ROW_BYTES = 29 ^STRUCTURE = "COSIMA_SPECTRUM_PEAK_SCALE.FMT" DESCRIPTION = "COSIMA PEAK LIST MASS SCALE" END_OBJECT = SCALE_TABLE OBJECT = PEAK_TABLE NAME = PEAK_LIST INTERCHANGE_FORMAT = ASCII ROWS = 330 COLUMNS = 3 ROW_BYTES = 29 ^STRUCTURE = "COSIMA_SPECTRUM_PEAKS.FMT" DESCRIPTION = "COSIMA SPECTRUM PEAK LIST" END_OBJECT = PEAK_TABLE END END COSIMA_SPECTRUM_PEAK_SCALE.FMT OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = SCALE_A DATA_TYPE = ASCII_REAL START_BYTE = 1 BYTES = 10 FORMAT = "F10.2" DESCRIPTION = "FACTOR A FROM THE TIME TO MASS FUNCTION T = A * SQRT(M) + B" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = SCALE_B DATA_TYPE = ASCII_REAL START_BYTE = 12 BYTES = 10 FORMAT = "F10.2" DESCRIPTION = "FACTOR B FROM THE TIME TO MASS FUNCTION T = A * SQRT(M) + B" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = SCALE_CONFIDENCE DATA_TYPE = ASCII_REAL START_BYTE = 23 BYTES = 5 FORMAT = "F5.1" DESCRIPTION = "MASS SCALE CONFIDENCE LEVEL IN PROCENTS" COSIMA_SPECTRUM_PEAK_SCALE.FMT OBJECT = COLUMN NAME = SCALE_A DATA_TYPE = ASCII_REAL START_BYTE = 1 BYTES = 10 FORMAT = "F10.2" DESCRIPTION = "FACTOR A FROM THE TIME TO MASS FUNCTION T = A * SQRT(M) + B" END_OBJECT = COLUMN OBJECT = COLUMN NAME = SCALE_B DATA_TYPE = ASCII_REAL START_BYTE = 12 BYTES = 10 FORMAT = "F10.2" DESCRIPTION = "FACTOR B FROM THE TIME TO MASS FUNCTION T = A * SQRT(M) + B" END_OBJECT = COLUMN OBJECT = COLUMN NAME = SCALE_CONFIDENCE DATA_TYPE = ASCII_REAL START_BYTE = 23 BYTES = 5 FORMAT = "F5.1" DESCRIPTION = "MASS SCALE CONFIDENCE LEVEL IN PROCENTS" END_OBJECT = COLUMN END_OBJECT = COLUMN COSIMA_SPECTRUM_PEAKS.FMT OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = INDEX DATA_TYPE = ASCII_INTEGER START_BYTE = 1 BYTES = 5 FORMAT = "I5" DESCRIPTION = "INTEGER MASS. IF HIGHER THAN 300, THEN THE INTERVAL FROM PREVIOUS VALUE TO CURRENT VALUE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = INORGANIC_COUNT DATA_TYPE = ASCII_INTEGER START_BYTE = 7 BYTES = 10 FORMAT = "I10" DESCRIPTION = "INORGANIC PEAK HEIGHT COUNT. IF MASS INDEX IS HIGHER THAN 300, THEN THE SUM OF ORGANIC AND INORGANIC COUNTS FOR THE INTERVAL FROM PREVIOUS INDEX" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = ORGANIC_COUNT DATA_TYPE = ASCII_INTEGER START_BYTE = 18 BYTES = 10 FORMAT = "I10" DESCRIPTION = "ORGANIC PEAK HEIGHT COUNT. IF MASS INDEX IS HIGHER THAN 300, THEN THE SUM OF INORGANIC AND ORGANIC COUNTS FOR THE INTERVAL FROM PREVIOUS INDEX" OBJECT = COLUMN NAME = INDEX DATA_TYPE = ASCII_INTEGER START_BYTE = 1 BYTES = 5 FORMAT = "I5" DESCRIPTION = "INTEGER MASS. IF HIGHER THAN 300, THEN THE INTERVAL FROM PREVIOUS VALUE TO CURRENT VALUE" END_OBJECT = COLUMN OBJECT = COLUMN NAME = INORGANIC_COUNT DATA_TYPE = ASCII_INTEGER START_BYTE = 7 BYTES = 10 FORMAT = "I10" DESCRIPTION = "INORGANIC PEAK HEIGHT COUNT. IF MASS INDEX IS HIGHER THAN 300, THEN THE SUM OF ORGANIC AND INORGANIC COUNTS FOR THE INTERVAL FROM PREVIOUS INDEX" END_OBJECT = COLUMN OBJECT = COLUMN NAME = ORGANIC_COUNT DATA_TYPE = ASCII_INTEGER START_BYTE = 18 BYTES = 10 FORMAT = "I10" DESCRIPTION = "ORGANIC PEAK HEIGHT COUNT. IF MASS INDEX IS HIGHER THAN 300, THEN THE SUM OF INORGANIC AND ORGANIC COUNTS FOR THE INTERVAL FROM PREVIOUS INDEX" END_OBJECT = COLUMN END_OBJECT = COLUMN 3 Time-of-flight spectrum housekeeping data product 1 General description With each measured time-of-flight spectrum or peak list, housekeeping data is associated. The housekeeping product has the following elements: * Voltages, currents and temperatures of the instrument during spectrum measurement * TDC unit timing parameters * TDC unit calibration results Detailed contents of the elements are described in the label example below. 2 Label example PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.1" /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 897 FILE_RECORDS = 11 LABEL_RECORDS = 5 /* POINTER TO DATA OBJECT */ ^HK_TABLE = 6 ^TDC_TIMING_TABLE = 7 ^TDC_CALIBRATION_TABLE = 8 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_2D8_20070927T182348_S_HK.TAB" DATA_SET_ID = "RO-CAL-COSIMA-3-V2.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 3 V2.0" PRODUCT_ID = "CS_2D8_20070927T182348_S_HK" PRODUCT_CREATION_TIME = 2008-11-12T09:15:38 PRODUCT_TYPE = "REFDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "EARTH SWING-BY 2" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "SPECTRUM" INSTRUMENT_MODE_DESC = "TIME OF FLIGHT MASS SPECTRUM MEASUREMENT" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2007-09-27T18:23:48 STOP_TIME = 2007-09-27T18:33:53 SPACECRAFT_CLOCK_START_COUNT = "1/0149538196.41251" SPACECRAFT_CLOCK_STOP_COUNT = "1/0149538801.41245" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "2D8" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, blank" ROSETTA:COSIMA_SUBSTRATE_X = 5000 ROSETTA:COSIMA_SUBSTRATE_Y = 5000 ROSETTA:COSIMA_SPECTRUM_POL = "POSITIVE" ROSETTA:COSIMA_SPECTRUM_SHOTS = 795091 OBJECT = HK_TABLE NAME = HOUSEKEEPING INTERCHANGE_FORMAT = ASCII ROWS = 1 COLUMNS = 112 ROW_BYTES = 897 ^STRUCTURE = "COSIMA_SPECTRUM_HK.FMT" DESCRIPTION = "COSIMA SPECTRUM HOUSEKEEPING INFORMATION, INCLUDING VOLTAGES, CURRENTS AND TEMPERATUES" END_OBJECT = HK_TABLE OBJECT = TDC_TIMING_TABLE NAME = TDC_TIMING INTERCHANGE_FORMAT = ASCII ROWS = 1 COLUMNS = 7 ROW_BYTES = 897 ^STRUCTURE = "COSIMA_SPECTRUM_TDC_TIMING.FMT" DESCRIPTION = "TIME TO DIGITAL UNIT TIMING PARAMETERS" END_OBJECT = TDC_TIMING_TABLE OBJECT = TDC_CALIBRATION_TABLE NAME = TDC_CALIBRATION INTERCHANGE_FORMAT = ASCII ROWS = 4 COLUMNS = 5 ROW_BYTES = 897 ^STRUCTURE = "COSIMA_SPECTRUM_TDC_CALIB.FMT" DESCRIPTION = "TIME TO DIGITAL UNIT CALIBRATION RESULTS" END_OBJECT = TDC_CALIBRATION_TABLE PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.0" RELEASE_ID = 0001 REVISION_ID = 0000 /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 961 FILE_RECORDS = 9 LABEL_RECORDS = 5 /* POINTER TO DATA OBJECT */ ^HK_TABLE = 6 ^TDC_TIMING_TABLE = 7 ^TDC_CALIBRATION_TABLE = 8 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_1C2_20020610T151707_S_HK.TAB" DATA_SET_ID = "RO-CAL-COSIMA-2-V1.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 2 V1.0" PRODUCT_ID = "CS_1C2_20020610T151707_S_HK" PRODUCT_CREATION_TIME = 2006-09-25T00:50:23 PRODUCT_TYPE = "REFDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "GROUND" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "SPECTRUM" INSTRUMENT_MODE_DESC = "TIME OF FLIGHT MASS SPECTRUM MEASUREMENT" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2002-06-10T15:17:07 STOP_TIME = 2002-06-10T15:24:35 SPACECRAFT_CLOCK_START_COUNT = " N/A" SPACECRAFT_CLOCK_STOP_COUNT = " N/A" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "1C2" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, 73 micrometer thickness, blank with rectangular hole 3.5x3.5mm" ROSETTA:COSIMA_SUBSTRATE_X = 8000 ROSETTA:COSIMA_SUBSTRATE_Y = 5500 ROSETTA:COSIMA_SPECTRUM_POL = "POSITIVE" ROSETTA:COSIMA_SPECTRUM_SHOTS = 4545 OBJECT = HK_TABLE NAME = HOUSEKEEPING INTERCHANGE_FORMAT = ASCII ROWS = 1 COLUMNS = 120 ROW_BYTES = 961 ^STRUCTURE = "COSIMA_SPECTRUM_HK.FMT" DESCRIPTION = "COSIMA SPECTRUM HOUSEKEEPING INFORMATION, INCLUDING VOLTAGES, CURRENTS AND TEMPERATUES" END_OBJECT = HK_TABLE OBJECT = TDC_TIMING_TABLE NAME = TDC_TIMING INTERCHANGE_FORMAT = ASCII ROWS = 1 COLUMNS = 7 ROW_BYTES = 961 ^STRUCTURE = "COSIMA_SPECTRUM_TDC_TIMING.FMT" DESCRIPTION = "TIME TO DIGITAL UNIT TIMING PARAMETERS" END_OBJECT = TDC_TIMING_TABLE OBJECT = TDC_CALIBRATION_TABLE NAME = TDC_CALIBRATION INTERCHANGE_FORMAT = ASCII ROWS = 2 COLUMNS = 5 ROW_BYTES = 961 ^STRUCTURE = COSIMA_SPECTRUM_TDC_CALIB.FMT DESCRIPTION = "TIME TO DIGITAL UNIT CALIBRATION RESULTS" END_OBJECT = TDC_CALIBRATION_TABLE ENDEND COSIMA_SPECTRUM_HK.FMT: OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "T_REF_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 1 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_REF TEMPERATURE MINIMUM AT REFERENCE POINT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "T_REF_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 9 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_REF TEMPERATURE MEAN AT REFERENCE POINT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "T_REF_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 17 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_REF TEMPERATURE MAXIMUM AT REFERENCE POINT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "T_REF_STD" DATA_TYPE = ASCII_REAL START_BYTE = 25 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_REF TEMPERATURE STANDARD DEVIATION AT REFERENCE POINT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = "T_TDC_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 33 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_TDC TIME TO DIGITAL UNIT DELAY LINE TEMPERATURE MINIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = "T_TDC_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 41 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_TDC TIME TO DIGITAL UNIT DELAY LINE TEMPERATURE MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = "T_TDC_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 49 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_TDC TIME TO DIGITAL UNIT DELAY LINE TEMPERATURE MAXIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = "T_TDC_STD" DATA_TYPE = ASCII_REAL START_BYTE = 57 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_TDC TIME TO DIGITAL UNIT DELAY LINE TEMPERATURE STANDARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = "T_PIBS_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 65 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_PIBS PRIMARY ION BEAM SYSTEM TEMPERATURE MINIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = "T_PIBS_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 73 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_PIBS PRIMARY ION BEAM SYSTEM TEMPERATURE MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = "T_PIBS_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 81 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_PIBS PRIMARY ION BEAM SYSTEM TEMPERATURE MAXIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = "T_PIBS_STD" DATA_TYPE = ASCII_REAL START_BYTE = 89 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_PIBS PRIMARY ION BEAM SYSTEM TEMPERATURE STANDARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = "T_LVC_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 97 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_LVC LOW VOLTAGE CONVERTER TEMPERATURE MINIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 14 NAME = "T_LVC_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 105 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_LVC LOW VOLTAGE CONVERTER TEMPERATURE MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 15 NAME = "T_LVC_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 113 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_LVC LOW VOLTAGE CONVERTER TEMPERATURE MAXIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 16 NAME = "T_LVC_STD" DATA_TYPE = ASCII_REAL START_BYTE = 121 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_LVC LOW VOLTAGE CONVERTER TEMPERATURE STANDARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 17 NAME = "T_CPU_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 129 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_CPU PROCESSOR TEMPERATURE MINIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 18 NAME = "T_CPU_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 137 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_CPU PROCESSOR TEMPERATURE MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 19 NAME = "T_CPU_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 145 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_CPU PROCESSOR TEMPERATURE MAXIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 20 NAME = "T_CPU_STD" DATA_TYPE = ASCII_REAL START_BYTE = 153 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_CPU PROCESSOR TEMPERATURE STANDARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 21 NAME = "T_HVC_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 161 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_HVC MOTHERBOARD TEMPERATURE MINIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 22 NAME = "T_HVC_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 169 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_HVC MOTHERBOARD TEMPERATURE MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 23 NAME = "T_HVC_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 177 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_HVC MOTHERBOARD TEMPERATURE MAXIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 24 NAME = "T_HVC_STD" DATA_TYPE = ASCII_REAL START_BYTE = 185 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_HVC MOTHERBOARD TEMPERATURE STANDARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 25 NAME = "V_EL1_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 193 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EL1 EXTRACTION LENS 1 VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 26 NAME = "V_EL1_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 201 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EL1 EXTRACTION LENS 1 VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 27 NAME = "V_EL1_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 209 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EL1 EXTRACTION LENS 1 VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 28 NAME = "V_EL1_STD" DATA_TYPE = ASCII_REAL START_BYTE = 217 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EL1 EXTRACTION LENS 1 VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 29 NAME = "V_TOF1_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 225 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF1 HIGH VOLTAGE CONVERTER 1 VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 30 NAME = "V_TOF1_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 233 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF1 HIGH VOLTAGE CONVERTER 1 VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 31 NAME = "V_TOF1_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 241 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF1 HIGH VOLTAGE CONVERTER 1 VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 32 NAME = "V_TOF1_STD" DATA_TYPE = ASCII_REAL START_BYTE = 249 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF1 HIGH VOLTAGE CONVERTER 1 VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 33 NAME = "V_TOF2_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 257 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF2 HIGH VOLTAGE CONVERTER 2 VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 34 NAME = "V_TOF2_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 265 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF2 HIGH VOLTAGE CONVERTER 2 VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 35 NAME = "V_TOF2_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 273 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF2 HIGH VOLTAGE CONVERTER 2 VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 36 NAME = "V_TOF2_STD" DATA_TYPE = ASCII_REAL START_BYTE = 281 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF2 HIGH VOLTAGE CONVERTER 2 VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 37 NAME = "V_DT_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 289 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DT DRIFT TUBE VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 38 NAME = "V_DT_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 297 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DT DRIFT TUBE VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 39 NAME = "V_DT_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 305 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DT DRIFT TUBE VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 40 NAME = "V_DT_STD" DATA_TYPE = ASCII_REAL START_BYTE = 313 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DT DRIFT TUBE VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 41 NAME = "V_PA_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 321 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_PA POST-ACCELERATION VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 42 NAME = "V_PA_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 329 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_PA POST-ACCELERATION VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 43 NAME = "V_PA_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 337 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_PA POST-ACCELERATION VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 44 NAME = "V_PA_STD" DATA_TYPE = ASCII_REAL START_BYTE = 345 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_PA POST-ACCELERATION VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 45 NAME = "V_DET_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 353 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DET ION DETECTOR VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 46 NAME = "V_DET_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 361 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DET ION DETECTOR VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 47 NAME = "V_DET_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 369 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DET ION DETECTOR VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 48 NAME = "V_DET_STD" DATA_TYPE = ASCII_REAL START_BYTE = 377 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DET ION DETECTOR VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 49 NAME = "V_DX_TOF_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 385 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_TOF X-DIRECTION DEFLECTION VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 50 NAME = "V_DX_TOF_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 393 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_TOF X-DIRECTION DEFLECTION VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 51 NAME = "V_DX_TOF_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 401 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_TOF X-DIRECTION DEFLECTION VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 52 NAME = "V_DX_TOF_STD" DATA_TYPE = ASCII_REAL START_BYTE = 409 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_TOF X-DIRECTION DEFLECTION VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 53 NAME = "V_DY_TOF_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 417 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_TOF Y-DIRECTION DEFLECTION VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 54 NAME = "V_DY_TOF_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 425 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_TOF Y-DIRECTION DEFLECTION VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 55 NAME = "V_DY_TOF_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 433 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_TOF Y-DIRECTION DEFLECTION VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 56 NAME = "V_DY_TOF_STD" DATA_TYPE = ASCII_REAL START_BYTE = 441 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_TOF Y-DIRECTION DEFLECTION VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 57 NAME = "V_L1_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 449 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L1 LENS 1 VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 58 NAME = "V_L1_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 457 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L1 LENS 1 VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 59 NAME = "V_L1_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 465 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L1 LENS 1 VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 60 NAME = "V_L1_STD" DATA_TYPE = ASCII_REAL START_BYTE = 473 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L1 LENS 1 VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 61 NAME = "V_L2_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 481 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L2 LENS 2 VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 62 NAME = "V_L2_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 489 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L2 LENS 2 VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 63 NAME = "V_L2_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 497 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L2 LENS 2 VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 64 NAME = "V_L2_STD" DATA_TYPE = ASCII_REAL START_BYTE = 505 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L2 LENS 2 VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 65 NAME = "V_BS1_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 513 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS1 BEAM SWITCH 1 VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 66 NAME = "V_BS1_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 521 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS1 BEAM SWITCH 1 VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 67 NAME = "V_BS1_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 529 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS1 BEAM SWITCH 1 VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 68 NAME = "V_BS1_STD" DATA_TYPE = ASCII_REAL START_BYTE = 537 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS1 BEAM SWITCH 1 VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 69 NAME = "V_BS2_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 545 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS2 BEAM SWITCH 2 VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 70 NAME = "V_BS2_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 553 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS2 BEAM SWITCH 2 VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 71 NAME = "V_BS2_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 561 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS2 BEAM SWITCH 2 VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 72 NAME = "V_BS2_STD" DATA_TYPE = ASCII_REAL START_BYTE = 569 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS2 BEAM SWITCH 2 VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 73 NAME = "V_CB1_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 577 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB1 BEAM CHOPPER POSITIVE VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 74 NAME = "V_CB1_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 585 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB1 BEAM CHOPPER POSITIVE VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 75 NAME = "V_CB1_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 593 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB1 BEAM CHOPPER POSITIVE VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 76 NAME = "V_CB1_STD" DATA_TYPE = ASCII_REAL START_BYTE = 601 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB1 BEAM CHOPPER POSITIVE VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 77 NAME = "V_CB2_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 609 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB2 BEAM CHOPPER NEGATIVE VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 78 NAME = "V_CB2_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 617 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB2 BEAM CHOPPER NEGATIVE VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 79 NAME = "V_CB2_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 625 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB2 BEAM CHOPPER NEGATIVE VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 80 NAME = "V_CB2_STD" DATA_TYPE = ASCII_REAL START_BYTE = 633 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB2 BEAM CHOPPER NEGATIVE VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 81 NAME = "V_DX_PIBS_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 641 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_PIBS X-DIRECTION DEFLECTION VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 82 NAME = "V_DX_PIBS_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 649 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_PIBS X-DIRECTION DEFLECTION VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 83 NAME = "V_DX_PIBS_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 657 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_PIBS X-DIRECTION DEFLECTION VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 84 NAME = "V_DX_PIBS_STD" DATA_TYPE = ASCII_REAL START_BYTE = 665 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_PIBS X-DIRECTION DEFLECTION VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 85 NAME = "V_DY_PIBS_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 673 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_PIBS Y-DIRECTION DEFLECTION VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 86 NAME = "V_DY_PIBS_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 681 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_PIBS Y-DIRECTION DEFLECTION VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 87 NAME = "V_DY_PIBS_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 689 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_PIBS Y-DIRECTION DEFLECTION VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 88 NAME = "V_DY_PIBS_STD" DATA_TYPE = ASCII_REAL START_BYTE = 697 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_PIBS Y-DIRECTION DEFLECTION VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 89 NAME = "V_TIP_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 705 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TIP TIP VOLTAGE MINIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 90 NAME = "V_TIP_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 713 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TIP TIP VOLTAGE MEAN, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 91 NAME = "V_TIP_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 721 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TIP TIP VOLTAGE MAXIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 92 NAME = "V_TIP_STD" DATA_TYPE = ASCII_REAL START_BYTE = 729 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TIP TIP VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 93 NAME = "C_TIP_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 737 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_TIP TIP CURRENT MINIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 94 NAME = "C_TIP_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 745 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_TIP TIP CURRENT MEAN, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 95 NAME = "C_TIP_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 753 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_TIP TIP CURRENT MAXIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 96 NAME = "C_TIP_STD" DATA_TYPE = ASCII_REAL START_BYTE = 761 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_TIP TIP VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 97 NAME = "V_EXT_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 769 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EXT EXTRACTOR VOLTAGE MINIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 98 NAME = "V_EXT_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 777 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EXT EXTRACTOR VOLTAGE MEAN, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 99 NAME = "V_EXT_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 785 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EXT EXTRACTOR VOLTAGE MAXIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 100 NAME = "V_EXT_STD" DATA_TYPE = ASCII_REAL START_BYTE = 793 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EXT EXTRACTOR VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 101 NAME = "C_EXT_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 801 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_EXT EXTRACTOR CURRENT MINIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 102 NAME = "C_EXT_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 809 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_EXT EXTRACTOR CURRENT MEAN, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 103 NAME = "C_EXT_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 817 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_EXT EXTRACTOR CURRENT MAXIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 104 NAME = "C_EXT_STD" DATA_TYPE = ASCII_REAL START_BYTE = 825 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_EXT EXTRACTOR CURRENT STANDARD DEVIATION, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 105 NAME = "V_HEATER_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 833 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_HEATER HEATER VOLTAGE MINIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 106 NAME = "V_HEATER_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 841 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_HEATER HEATER VOLTAGE MEAN, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 107 NAME = "V_HEATER_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 849 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_HEATER HEATER VOLTAGE MAXIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 108 NAME = "V_HEATER_STD" DATA_TYPE = ASCII_REAL START_BYTE = 857 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_HEATER HEATER VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 109 NAME = "C_HEATER_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 865 BYTES = 7 UNIT = "AMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_HEATER HEATER CURRENT MINIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 110 NAME = "C_HEATER_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 873 BYTES = 7 UNIT = "AMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_HEATER HEATER CURRENT MEAN, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 111 NAME = "C_HEATER_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 881 BYTES = 7 UNIT = "AMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_HEATER HEATER CURRENT MAXIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 112 NAME = "C_HEATER_STD" DATA_TYPE = ASCII_REAL START_BYTE = 889 BYTES = 7 UNIT = "AMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_HEATER HEATER CURRENT STANDARD DEVIATION, IN THE PRIMARY ION SOURCE" OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "T_REF_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 1 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_REF TEMPERATURE MINIMUM AT REFERENCE POINT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "T_REF_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 9 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_REF TEMPERATURE MEAN AT REFERENCE POINT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "T_REF_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 17 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_REF TEMPERATURE MAXIMUM AT REFERENCE POINT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "T_REF_STD" DATA_TYPE = ASCII_REAL START_BYTE = 25 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_REF TEMPERATURE STANDARD DEVIATION AT REFERENCE POINT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = "T_TDC_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 33 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_TDC TIME TO DIGITAL UNIT DELAY LINE TEMPERATURE MINIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = "T_TDC_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 41 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_TDC TIME TO DIGITAL UNIT DELAY LINE TEMPERATURE MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = "T_TDC_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 49 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_TDC TIME TO DIGITAL UNIT DELAY LINE TEMPERATURE MAXIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = "T_TDC_STD" DATA_TYPE = ASCII_REAL START_BYTE = 57 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_TDC TIME TO DIGITAL UNIT DELAY LINE TEMPERATURE STANDARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = "T_PIBS_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 65 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_PIBS PRIMARY ION BEAM SYSTEM TEMPERATURE MINIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = "T_PIBS_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 73 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_PIBS PRIMARY ION BEAM SYSTEM TEMPERATURE MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = "T_PIBS_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 81 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_PIBS PRIMARY ION BEAM SYSTEM TEMPERATURE MAXIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = "T_PIBS_STD" DATA_TYPE = ASCII_REAL START_BYTE = 89 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_PIBS PRIMARY ION BEAM SYSTEM TEMPERATURE STANDARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = "T_LVC_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 97 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_LVC LOW VOLTAGE CONVERTER TEMPERATURE MINIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 14 NAME = "T_LVC_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 105 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_LVC LOW VOLTAGE CONVERTER TEMPERATURE MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 15 NAME = "T_LVC_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 113 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_LVC LOW VOLTAGE CONVERTER TEMPERATURE MAXIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 16 NAME = "T_LVC_STD" DATA_TYPE = ASCII_REAL START_BYTE = 121 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_LVC LOW VOLTAGE CONVERTER TEMPERATURE STANDARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 17 NAME = "T_CPU_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 129 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_CPU PROCESSOR TEMPERATURE MINIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 18 NAME = "T_CPU_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 137 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_CPU PROCESSOR TEMPERATURE MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 19 NAME = "T_CPU_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 145 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_CPU PROCESSOR TEMPERATURE MAXIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 20 NAME = "T_CPU_STD" DATA_TYPE = ASCII_REAL START_BYTE = 153 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_CPU PROCESSOR TEMPERATURE STANDARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 21 NAME = "T_HVC_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 161 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_HVC MOTHERBOARD TEMPERATURE MINIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 22 NAME = "T_HVC_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 169 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_HVC MOTHERBOARD TEMPERATURE MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 23 NAME = "T_HVC_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 177 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_HVC MOTHERBOARD TEMPERATURE MAXIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 24 NAME = "T_HVC_STD" DATA_TYPE = ASCII_REAL START_BYTE = 185 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T_HVC MOTHERBOARD TEMPERATURE STANDARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 25 NAME = "V_EL1_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 193 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EL1 EXTRACTION LENS 1 VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 26 NAME = "V_EL1_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 201 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EL1 EXTRACTION LENS 1 VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 27 NAME = "V_EL1_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 209 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EL1 EXTRACTION LENS 1 VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 28 NAME = "V_EL1_STD" DATA_TYPE = ASCII_REAL START_BYTE = 217 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EL1 EXTRACTION LENS 1 VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 29 NAME = "V_TOF1_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 225 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF1 HIGH VOLTAGE CONVERTER 1 VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 30 NAME = "V_TOF1_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 233 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF1 HIGH VOLTAGE CONVERTER 1 VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 31 NAME = "V_TOF1_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 241 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF1 HIGH VOLTAGE CONVERTER 1 VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 32 NAME = "V_TOF1_STD" DATA_TYPE = ASCII_REAL START_BYTE = 249 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF1 HIGH VOLTAGE CONVERTER 1 VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 33 NAME = "V_TOF2_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 257 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF2 HIGH VOLTAGE CONVERTER 2 VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 34 NAME = "V_TOF2_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 265 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF2 HIGH VOLTAGE CONVERTER 2 VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 35 NAME = "V_TOF2_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 273 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF2 HIGH VOLTAGE CONVERTER 2 VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 36 NAME = "V_TOF2_STD" DATA_TYPE = ASCII_REAL START_BYTE = 281 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TOF2 HIGH VOLTAGE CONVERTER 2 VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 37 NAME = "V_DT_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 289 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DT DRIFT TUBE VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 38 NAME = "V_DT_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 297 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DT DRIFT TUBE VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 39 NAME = "V_DT_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 305 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DT DRIFT TUBE VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 40 NAME = "V_DT_STD" DATA_TYPE = ASCII_REAL START_BYTE = 313 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DT DRIFT TUBE VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 41 NAME = "V_PA_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 321 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_PA POST-ACCELERATION VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 42 NAME = "V_PA_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 329 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_PA POST-ACCELERATION VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 43 NAME = "V_PA_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 337 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_PA POST-ACCELERATION VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 44 NAME = "V_PA_STD" DATA_TYPE = ASCII_REAL START_BYTE = 345 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_PA POST-ACCELERATION VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 45 NAME = "V_DET_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 353 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DET ION DETECTOR VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 46 NAME = "V_DET_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 361 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DET ION DETECTOR VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 47 NAME = "V_DET_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 369 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DET ION DETECTOR VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 48 NAME = "V_DET_STD" DATA_TYPE = ASCII_REAL START_BYTE = 377 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DET ION DETECTOR VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 49 NAME = "V_DX_TOF_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 385 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_TOF X-DIRECTION DEFLECTION VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 50 NAME = "V_DX_TOF_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 393 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_TOF X-DIRECTION DEFLECTION VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 51 NAME = "V_DX_TOF_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 401 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_TOF X-DIRECTION DEFLECTION VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 52 NAME = "V_DX_TOF_STD" DATA_TYPE = ASCII_REAL START_BYTE = 409 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_TOF X-DIRECTION DEFLECTION VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 53 NAME = "V_DY_TOF_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 417 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_TOF Y-DIRECTION DEFLECTION VOLTAGE MINIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 54 NAME = "V_DY_TOF_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 425 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_TOF Y-DIRECTION DEFLECTION VOLTAGE MEAN, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 55 NAME = "V_DY_TOF_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 433 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_TOF Y-DIRECTION DEFLECTION VOLTAGE MAXIMUM, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 56 NAME = "V_DY_TOF_STD" DATA_TYPE = ASCII_REAL START_BYTE = 441 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_TOF Y-DIRECTION DEFLECTION VOLTAGE STANDARD DEVIATION, IN THE TIME-OF-FLIGHT SECTION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 57 NAME = "V_L1_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 449 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L1 LENS 1 VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 58 NAME = "V_L1_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 457 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L1 LENS 1 VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 59 NAME = "V_L1_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 465 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L1 LENS 1 VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 60 NAME = "V_L1_STD" DATA_TYPE = ASCII_REAL START_BYTE = 473 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L1 LENS 1 VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 61 NAME = "V_L2_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 481 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L2 LENS 2 VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 62 NAME = "V_L2_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 489 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L2 LENS 2 VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 63 NAME = "V_L2_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 497 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L2 LENS 2 VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 64 NAME = "V_L2_STD" DATA_TYPE = ASCII_REAL START_BYTE = 505 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_L2 LENS 2 VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 65 NAME = "V_BS1_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 513 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS1 BEAM SWITCH 1 VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 66 NAME = "V_BS1_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 521 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS1 BEAM SWITCH 1 VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 67 NAME = "V_BS1_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 529 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS1 BEAM SWITCH 1 VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 68 NAME = "V_BS1_STD" DATA_TYPE = ASCII_REAL START_BYTE = 537 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS1 BEAM SWITCH 1 VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 69 NAME = "V_BS2_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 545 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS2 BEAM SWITCH 2 VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 70 NAME = "V_BS2_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 553 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS2 BEAM SWITCH 2 VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 71 NAME = "V_BS2_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 561 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS2 BEAM SWITCH 2 VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 72 NAME = "V_BS2_STD" DATA_TYPE = ASCII_REAL START_BYTE = 569 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_BS2 BEAM SWITCH 2 VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 73 NAME = "V_CB1_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 577 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB1 BEAM CHOPPER POSITIVE VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 74 NAME = "V_CB1_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 585 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB1 BEAM CHOPPER POSITIVE VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 75 NAME = "V_CB1_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 593 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB1 BEAM CHOPPER POSITIVE VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 76 NAME = "V_CB1_STD" DATA_TYPE = ASCII_REAL START_BYTE = 601 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB1 BEAM CHOPPER POSITIVE VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 77 NAME = "V_CB2_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 609 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB2 BEAM CHOPPER NEGATIVE VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 78 NAME = "V_CB2_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 617 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB2 BEAM CHOPPER NEGATIVE VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 79 NAME = "V_CB2_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 625 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB2 BEAM CHOPPER NEGATIVE VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 80 NAME = "V_CB2_STD" DATA_TYPE = ASCII_REAL START_BYTE = 633 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_CB2 BEAM CHOPPER NEGATIVE VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 81 NAME = "V_DX_PIBS_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 641 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_PIBS X-DIRECTION DEFLECTION VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 82 NAME = "V_DX_PIBS_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 649 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_PIBS X-DIRECTION DEFLECTION VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 83 NAME = "V_DX_PIBS_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 657 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_PIBS X-DIRECTION DEFLECTION VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 84 NAME = "V_DX_PIBS_STD" DATA_TYPE = ASCII_REAL START_BYTE = 665 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DX_PIBS X-DIRECTION DEFLECTION VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 85 NAME = "V_DY_PIBS_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 673 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_PIBS Y-DIRECTION DEFLECTION VOLTAGE MINIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 86 NAME = "V_DY_PIBS_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 681 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_PIBS Y-DIRECTION DEFLECTION VOLTAGE MEAN, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 87 NAME = "V_DY_PIBS_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 689 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_PIBS Y-DIRECTION DEFLECTION VOLTAGE MAXIMUM, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 88 NAME = "V_DY_PIBS_STD" DATA_TYPE = ASCII_REAL START_BYTE = 697 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_DY_PIBS Y-DIRECTION DEFLECTION VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION BEAM SYSTEM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 89 NAME = "V_TIP_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 705 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TIP TIP VOLTAGE MINIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 90 NAME = "V_TIP_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 713 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TIP TIP VOLTAGE MEAN, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 91 NAME = "V_TIP_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 721 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TIP TIP VOLTAGE MAXIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 92 NAME = "V_TIP_STD" DATA_TYPE = ASCII_REAL START_BYTE = 729 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_TIP TIP VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 93 NAME = "C_TIP_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 737 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_TIP TIP CURRENT MINIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 94 NAME = "C_TIP_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 745 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_TIP TIP CURRENT MEAN, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 95 NAME = "C_TIP_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 753 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_TIP TIP CURRENT MAXIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 96 NAME = "C_TIP_STD" DATA_TYPE = ASCII_REAL START_BYTE = 761 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_TIP TIP VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 97 NAME = "V_EXT_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 769 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EXT EXTRACTOR VOLTAGE MINIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 98 NAME = "V_EXT_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 777 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EXT EXTRACTOR VOLTAGE MEAN, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 99 NAME = "V_EXT_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 785 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EXT EXTRACTOR VOLTAGE MAXIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 100 NAME = "V_EXT_STD" DATA_TYPE = ASCII_REAL START_BYTE = 793 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_EXT EXTRACTOR VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 101 NAME = "C_EXT_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 801 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_EXT EXTRACTOR CURRENT MINIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 102 NAME = "C_EXT_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 809 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_EXT EXTRACTOR CURRENT MEAN, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 103 NAME = "C_EXT_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 817 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_EXT EXTRACTOR CURRENT MAXIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 104 NAME = "C_EXT_STD" DATA_TYPE = ASCII_REAL START_BYTE = 825 BYTES = 7 UNIT = "MICROAMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_EXT EXTRACTOR CURRENT STANDARD DEVIATION, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 105 NAME = "V_HEATER_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 833 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_HEATER HEATER VOLTAGE MINIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 106 NAME = "V_HEATER_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 841 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_HEATER HEATER VOLTAGE MEAN, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 107 NAME = "V_HEATER_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 849 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_HEATER HEATER VOLTAGE MAXIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 108 NAME = "V_HEATER_STD" DATA_TYPE = ASCII_REAL START_BYTE = 857 BYTES = 7 UNIT = "VOLT" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "V_HEATER HEATER VOLTAGE STANDARD DEVIATION, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 109 NAME = "C_HEATER_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 865 BYTES = 7 UNIT = "AMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_HEATER HEATER CURRENT MINIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 110 NAME = "C_HEATER_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 873 BYTES = 7 UNIT = "AMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_HEATER HEATER CURRENT MEAN, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 111 NAME = "C_HEATER_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 881 BYTES = 7 UNIT = "AMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_HEATER HEATER CURRENT MAXIMUM, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 112 NAME = "C_HEATER_STD" DATA_TYPE = ASCII_REAL START_BYTE = 889 BYTES = 7 UNIT = "AMPERE" MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "C_HEATER HEATER CURRENT STANDARD DEVIATION, IN THE PRIMARY ION SOURCE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 113 NAME = "DELAY_ADJ_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 897 BYTES = 7 MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "TIME TO DIGITAL UNIT DELAY ADJUSTMENT MINIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 114 NAME = "DELAY_ADJ_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 905 BYTES = 7 MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "TIME TO DIGITAL UNIT DELAY ADJUSTMENT MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 115 NAME = "DELAY_ADJ_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 913 BYTES = 7 MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "TIME TO DIGITAL UNIT DELAY ADJUSTMENT MAXIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 116 NAME = "DELAY_ADJ_STD" DATA_TYPE = ASCII_REAL START_BYTE = 921 BYTES = 7 MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" DESCRIPTION = "TIME TO DIGITAL UNIT DELAY ADJUSTMENT STANDARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 117 NAME = "HEATER RESISTANCE_R_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 929 BYTES = 7 MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" UNIT = "OHM" DESCRIPTION = "PRIMARY ION SOURCE HEATER RESISTANCE MINIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 118 NAME = "HEATER RESISTANCE_R_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 937 BYTES = 7 MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" UNIT = "OHM" DESCRIPTION = "PRIMARY ION SOURCE HEATER RESISTANCE MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 119 NAME = "HEATER RESISTANCE_R_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 945 BYTES = 7 MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" UNIT = "OHM" DESCRIPTION = "PRIMARY ION SOURCE HEATER RESISTANCE MAXIMUM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 120 NAME = "HEATER RESISTANCE_R_STD" DATA_TYPE = ASCII_REAL START_BYTE = 953 BYTES = 7 MISSING_CONSTANT = 99999.9 FORMAT = "F7.1" UNIT = "OHM" DESCRIPTION = "PRIMARY ION SOURCE HEATER RESISTANCE STANDARD DEVIATION" END_OBJECT = COLUMN COSIMA_SPECTRUM_TDC_TIMING.FMT: OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = CHOPPER_ON DATA_TYPE = ASCII_REAL START_BYTE = 1 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT CHOPPER ON TIME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = CHOPPER_OFF DATA_TYPE = ASCII_REAL START_BYTE = 11 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT CHOPPER OFF TIME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = BUNCHER_1_ON DATA_TYPE = ASCII_REAL START_BYTE = 21 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT BUNCHER 1 ON TIME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = BUNCHER_2_ON DATA_TYPE = ASCII_REAL START_BYTE = 31 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT BUNCHER 2 ON TIME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = BUNCHER_3_ON DATA_TYPE = ASCII_REAL START_BYTE = 41 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT BUNCHER 3 ON TIME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = PIBS_OFF DATA_TYPE = ASCII_REAL START_BYTE = 51 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT PRIMARY ION BEAM SYSTEM OFF TIME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = TOF_OFF DATA_TYPE = ASCII_REAL START_BYTE = 61 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT TIME OF FLIGHT UNIT OFF TIME" END_OBJECT = COLUMN END_OBJECT = COLUMN COSIMA_SPECTRUM_TDC_TIMING.FMT: OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = CHOPPER_ON DATA_TYPE = ASCII_REAL START_BYTE = 1 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT CHOPPER ON TIME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = CHOPPER_OFF DATA_TYPE = ASCII_REAL START_BYTE = 11 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT CHOPPER OFF TIME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = BUNCHER_1_ON DATA_TYPE = ASCII_REAL START_BYTE = 21 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT BUNCHER 1 ON TIME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = BUNCHER_2_ON DATA_TYPE = ASCII_REAL START_BYTE = 31 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT BUNCHER 2 ON TIME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = BUNCHER_3_ON DATA_TYPE = ASCII_REAL START_BYTE = 41 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT BUNCHER 3 ON TIME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = PIBS_OFF DATA_TYPE = ASCII_REAL START_BYTE = 51 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT PRIMARY ION BEAM SYSTEM OFF TIME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = TOF_OFF DATA_TYPE = ASCII_REAL START_BYTE = 61 BYTES = 9 UNIT = "NANOSECOND" FORMAT = "F9.2" DESCRIPTION = "TIME TO DIGITAL UNIT TIME OF FLIGHT UNIT OFF TIME" END_OBJECT = COLUMN COSIMA_SPECTRUM_TDC_CALIB.FMT: OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = TDC_CALIBRATION_OFFSET DATA_TYPE = ASCII_INTEGER START_BYTE = 1 BYTES = 11 UNIT = "SECOND" FORMAT = "I11" DESCRIPTION = "OFFSET IN SECONDS FROM THE START OF THE SPECTRUM MEASUREMENT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = TDC_DELAY_LINE DATA_TYPE = ASCII_INTEGER START_BYTE = 13 BYTES = 3 FORMAT = "I3" DESCRIPTION = "TIME TO DIGITAL UNIT DELAY LINE DAC CONTROL VALUE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = TDC_CALIBRATION_MEAN DATA_TYPE = ASCII_INTEGER START_BYTE = 17 BYTES = 4 FORMAT = "I4" DESCRIPTION = "TIME TO DIGITAL UNIT CHANNEL CALIBRATION MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = TDC_CALIBRATION_STD DATA_TYPE = ASCII_INTEGER START_BYTE = 22 BYTES = 4 FORMAT = "I4" DESCRIPTION = "TIME TO DIGITAL UNIT CHANNEL CALIBRATION STANTARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = TDC_CHANNEL_DIFFERENCE DATA_TYPE = ASCII_INTEGER START_BYTE = 27 BYTES = 79 ITEMS = 16 ITEM_BYTES = 4 ITEM_OFFSET = 5 FORMAT = "I4" DESCRIPTION = "TIME TO DIGITAL UNIT CHANNEL DIFFERENCE FROM THE MEAN" OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = TDC_CALIBRATION_OFFSET DATA_TYPE = ASCII_INTEGER START_BYTE = 1 BYTES = 10 UNIT = "SECOND" FORMAT = "I11" DESCRIPTION = "OFFSET IN SECONDS FROM THE START OF THE SPECTRUM MEASUREMENT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = TDC_DELAY_LINE DATA_TYPE = ASCII_INTEGER START_BYTE = 12 BYTES = 3 FORMAT = "I3" DESCRIPTION = "TIME TO DIGITAL UNIT DELAY LINE DAC CONTROL VALUE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = TDC_CALIBRATION_MEAN DATA_TYPE = ASCII_INTEGER START_BYTE = 16 BYTES = 4 FORMAT = "I4" DESCRIPTION = "TIME TO DIGITAL UNIT CHANNEL CALIBRATION MEAN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = TDC_CALIBRATION_STD DATA_TYPE = ASCII_INTEGER START_BYTE = 21 BYTES = 4 FORMAT = "I4" DESCRIPTION = "TIME TO DIGITAL UNIT CHANNEL CALIBRATION STANTARD DEVIATION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = TDC_CHANNEL_DIFFERENCE DATA_TYPE = ASCII_INTEGER START_BYTE = 26 BYTES = 79 ITEMS = 16 ITEM_BYTES = 4 ITEM_OFFSET = 5 FORMAT = "I4" DESCRIPTION = "TIME TO DIGITAL UNIT CHANNEL DIFFERENCE FROM THE MEAN" END_OBJECT = COLUMN END_OBJECT = COLUMN 4 COSISCOPE image product 1 General description COSISCOPE image contains an image of target substrate in IMAGE format. P or M in the end of the product ID corresponds to the led illumination from Plus side (right) or Minus side (left). 2 Label example PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.1" /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 1024 FILE_RECORDS = 1027 LABEL_RECORDS = 3 /* POINTER TO DATA OBJECT */ ^IMAGE = 4 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_2D8_20070923T171229_IM_P.IMG" DATA_SET_ID = "RO-CAL-COSIMA-3-V2.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 3 V2.0" PRODUCT_ID = "CS_2D8_20070923T171229_IM_P" PRODUCT_CREATION_TIME = 2008-11-12T09:15:35 PRODUCT_TYPE = "REFDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "EARTH SWING-BY 2" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "IMAGE" INSTRUMENT_MODE_DESC = "COSISCOPE IMAGING" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2007-09-23T17:12:29 STOP_TIME = 2007-09-23T17:15:12 SPACECRAFT_CLOCK_START_COUNT = "1/0149188317.44864" SPACECRAFT_CLOCK_STOP_COUNT = "1/0149188480.44862" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "2D8" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, blank" OBJECT = IMAGE LINES = 1024 LINE_SAMPLES = 1024 SAMPLE_TYPE = UNSIGNED_INTEGER SAMPLE_BITS = 16 DESCRIPTION = "COSISCOPE IMAGE OF THE SUBSTRATE" END_OBJECT = IMAGE PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.0" RELEASE_ID = 0001 REVISION_ID = 0000 /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 1024 FILE_RECORDS = 1027 LABEL_RECORDS = 3 /* POINTER TO DATA OBJECT */ ^IMAGE = 4 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_1C2_20020610T104348_IM_P.IMG" DATA_SET_ID = "RO-CAL-COSIMA-2-V1.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 2 V1.0" PRODUCT_ID = "CS_1C2_20020610T104348_IM_P" PRODUCT_CREATION_TIME = 2006-09-25T00:46:36 PRODUCT_TYPE = "REFDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "GROUND" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "IMAGE" INSTRUMENT_MODE_DESC = "COSISCOPE IMAGING" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2002-06-10T10:43:48 STOP_TIME = 2002-06-10T10:45:18 SPACECRAFT_CLOCK_START_COUNT = " N/A" SPACECRAFT_CLOCK_STOP_COUNT = " N/A" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "1C2" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, 73 micrometer thickness, blank with rectangular hole 3.5x3.5mm" OBJECT = IMAGE LINES = 1024 LINE_SAMPLES = 1024 SAMPLE_TYPE = UNSIGNED_INTEGER SAMPLE_BITS = 16 DESCRIPTION = "COSISCOPE IMAGE OF THE SUBSTRATE" END_OBJECT = IMAGE ENDEND 5 COSISCOPE dust grain list product 1 General description COSISCOPE dust grain list can be associated with a Cosiscope image product, or it can be self-standing. Dust grain list product contains a list of dust grains (also called features) found on a target substrate. 2 Label template PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.0" /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 37 FILE_RECORDS = 6542 LABEL_RECORDS = 78 /* POINTER TO DATA OBJECT */ ^FEATURE_TABLE = 79 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_2D8_20070927T175457_GR__.TAB" DATA_SET_ID = "RO-CAL-COSIMA-3-V2.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 3 V2.0" PRODUCT_ID = "CS_2D8_20070927T175457_GR__" PRODUCT_CREATION_TIME = 2008-11-12T09:15:37 PRODUCT_TYPE = "REFDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "EARTH SWING-BY 2" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "IMAGE" INSTRUMENT_MODE_DESC = "COSISCOPE IMAGING" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2007-09-27T17:54:57 STOP_TIME = 2007-09-27T17:55:20 SPACECRAFT_CLOCK_START_COUNT = "1/0149536465.41269" SPACECRAFT_CLOCK_STOP_COUNT = "1/0149536488.41269" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "2D8" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, blank" OBJECT = FEATURE_TABLE NAME = FEATURES INTERCHANGE_FORMAT = ASCII ROWS = 6464 COLUMNS = 6 ROW_BYTES = 37 ^STRUCTURE = "COSISCOPE_GRAINS.FMT" DESCRIPTION = "COSISCOPE GENERATED LIST OF PROMINENT FEATURES IN THE SUBSTRATE IMAGE. THE SUBSTRATE HAS AREA OF 10000X10000 MICROMETERS." END_OBJECT = FEATURE_TABLE PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.0" RELEASE_ID = 0001 REVISION_ID = 0000 /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 37 FILE_RECORDS = 1226 LABEL_RECORDS = 82 /* POINTER TO DATA OBJECT */ ^FEATURE_TABLE = 83 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_1C2_20020610T104348_GR__.TAB" DATA_SET_ID = "RO-CAL-COSIMA-2-V1.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 2 V1.0" PRODUCT_ID = "CS_1C2_20020610T104348_GR__" PRODUCT_CREATION_TIME = 2006-09-25T00:46:36 PRODUCT_TYPE = "REFDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "GROUND" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "IMAGE" INSTRUMENT_MODE_DESC = "COSISCOPE IMAGING" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2002-06-10T10:43:48 STOP_TIME = 2002-06-10T10:45:18 SPACECRAFT_CLOCK_START_COUNT = " N/A" SPACECRAFT_CLOCK_STOP_COUNT = " N/A" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "1C2" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, 73 micrometer thickness, blank with rectangular hole 3.5x3.5mm" OBJECT = FEATURE_TABLE NAME = FEATURES INTERCHANGE_FORMAT = ASCII ROWS = 1144 COLUMNS = 6 ROW_BYTES = 37 ^STRUCTURE = "COSISCOPE_GRAINS.FMT" DESCRIPTION = "COSISCOPE GENERATED LIST OF PROMINENT FEATURES IN THE SUBSTRATE IMAGE. THE SUBSTRATE HAS AREA OF 10000X10000 MICROMETERS." END_OBJECT = FEATURE_TABLE END END COSISCOPE_GRAINS.FMT: OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = X_LEFT DATA_TYPE = ASCII_INTEGER START_BYTE = 1 BYTES = 6 UNIT = "MICROMETER" FORMAT = I6 DESCRIPTION = "FEATURE LOWER LEFT X-COORDINATE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = Y_BOTTOM DATA_TYPE = ASCII_INTEGER START_BYTE = 8 BYTES = 6 UNIT = "MICROMETER" FORMAT = I6 DESCRIPTION = "FEATURE LOWER LEFT Y-COORDINATE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = X_RIGHT DATA_TYPE = ASCII_INTEGER START_BYTE = 15 BYTES = 6 UNIT = "MICROMETER" FORMAT = I6 DESCRIPTION = "FEATURE UPPER RIGHT X-COORDINATE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = Y_TOP DATA_TYPE = ASCII_INTEGER START_BYTE = 22 BYTES = 6 UNIT = "MICROMETER" FORMAT = I6 DESCRIPTION = "FEATURE UPPER RIGHT Y-COORDINATE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = QUALITY_PX DATA_TYPE = ASCII_INTEGER START_BYTE = 29 BYTES = 3 FORMAT = I3 MISSING_CONSTANT = 0 DESCRIPTION = "FEATURE QUALITY FROM +X-SIDE LED ILLUMINATION. THE QUALITY FROM 0 TO 255 IS MAINLY RELATED TO THE CONTRAST FROM THE BACKGROUND" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = QUALITY_MX DATA_TYPE = ASCII_INTEGER START_BYTE = 33 BYTES = 3 FORMAT = I3 MISSING_CONSTANT = 0 DESCRIPTION = "FEATURE QUALITY FROM -X-SIDE LED ILLUMINATION. THE QUALITY FROM 0 TO 255 IS MAINLY RELATED TO THE CONTRAST FROM THE BACKGROUND" OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = X_LEFT DATA_TYPE = ASCII_INTEGER START_BYTE = 1 BYTES = 6 UNIT = "MICROMETER" FORMAT = I6 DESCRIPTION = "FEATURE LOWER LEFT X-COORDINATE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = Y_BOTTOM DATA_TYPE = ASCII_INTEGER START_BYTE = 8 BYTES = 6 UNIT = "MICROMETER" FORMAT = I6 DESCRIPTION = "FEATURE LOWER LEFT Y-COORDINATE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = X_RIGHT DATA_TYPE = ASCII_INTEGER START_BYTE = 15 BYTES = 6 UNIT = "MICROMETER" FORMAT = I6 DESCRIPTION = "FEATURE UPPER RIGHT X-COORDINATE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = Y_TOP DATA_TYPE = ASCII_INTEGER START_BYTE = 22 BYTES = 6 UNIT = "MICROMETER" FORMAT = I6 DESCRIPTION = "FEATURE UPPER RIGHT Y-COORDINATE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = QUALITY_PX DATA_TYPE = ASCII_INTEGER START_BYTE = 29 BYTES = 3 FORMAT = I3 MISSING_CONSTANT = 0 DESCRIPTION = "FEATURE QUALITY FROM +X-SIDE LED ILLUMINATION. THE QUALITY FROM 0 TO 255 IS MAINLY RELATED TO THE CONTRAST FROM THE BACKGROUND" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = QUALITY_MX DATA_TYPE = ASCII_INTEGER START_BYTE = 33 BYTES = 3 FORMAT = I3 MISSING_CONSTANT = 0 DESCRIPTION = "FEATURE QUALITY FROM -X-SIDE LED ILLUMINATION. THE QUALITY FROM 0 TO 255 IS MAINLY RELATED TO THE CONTRAST FROM THE BACKGROUND" END_OBJECT = COLUMN END_OBJECT = COLUMN 6 COSISCOPE housekeeping product 1 General information With each Cosicope grain list, housekeeping data is associated. If the grain list has a corresponding Cosicope image, the housekeeping data applies also to that image. The Cosicope housekeeping product has the following elements: * Cosiscope temperatures * Substrate positioning information * Imaging information Detailed description of the Cosiscope housekeeping product is given in the label example. 2 Label example PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.0" RELEASE_ID = 0001 REVISION_ID = 0000 /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 334 FILE_RECORDS = 10 LABEL_RECORDS = 9 /* POINTER TO DATA OBJECT */ ^COSISCOPE_HK_TABLE = 10 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_2D8_20070927T175457_G_HK.TAB" DATA_SET_ID = "RO-CAL-COSIMA-3-V2.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 3 V2.0" PRODUCT_ID = "CS_2D8_20070927T175457_G_HK" PRODUCT_CREATION_TIME = 2008-11-12T09:15:37 PRODUCT_TYPE = "REFDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "EARTH SWING-BY 2" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "IMAGE" INSTRUMENT_MODE_DESC = "COSISCOPE IMAGING" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2007-09-27T17:54:57 STOP_TIME = 2007-09-27T17:55:20 SPACECRAFT_CLOCK_START_COUNT = "1/0149536465.41269" SPACECRAFT_CLOCK_STOP_COUNT = "1/0149536488.41269" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "2D8" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, blank" OBJECT = COSISCOPE_HK_TABLE NAME = COSISCOPE_HOUSEKEEPING INTERCHANGE_FORMAT = ASCII ROWS = 1 COLUMNS = 55 ROW_BYTES = 334 ^STRUCTURE = "COSISCOPE_HK.FMT" DESCRIPTION = "COSISCOPE HOUSEKEEPING INFORMATION" END_OBJECT = COSISCOPE_HK_TABLE PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.0" RELEASE_ID = 0001 REVISION_ID = 0000 /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 335 FILE_RECORDS = 10 LABEL_RECORDS = 9 /* POINTER TO DATA OBJECT */ ^COSISCOPE_HK_TABLE = 10 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_1C2_20020610T104348_G_HK.TAB" DATA_SET_ID = "RO-CAL-COSIMA-2-V1.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 2 V1.0" PRODUCT_ID = "CS_1C2_20020610T104348_G_HK" PRODUCT_CREATION_TIME = 2006-09-25T00:46:36 PRODUCT_TYPE = "REFDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "GROUND" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "IMAGE" INSTRUMENT_MODE_DESC = "COSISCOPE IMAGING" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2002-06-10T10:43:48 STOP_TIME = 2002-06-10T10:45:18 SPACECRAFT_CLOCK_START_COUNT = " N/A" SPACECRAFT_CLOCK_STOP_COUNT = " N/A" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "1C2" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, 73 micrometer thickness, blank with rectangular hole 3.5x3.5mm" OBJECT = COSISCOPE_HK_TABLE NAME = COSISCOPE_HOUSEKEEPING INTERCHANGE_FORMAT = ASCII ROWS = 1 COLUMNS = 55 ROW_BYTES = 335 ^STRUCTURE = "COSISCOPE_HK.FMT" DESCRIPTION = "COSISCOPE HOUSEKEEPING INFORMATION" END_OBJECT = COSISCOPE_HK_TABLE ENDEND COSISCOPE_HK.FMT: OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "T1_SCOPE_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 1 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T1_SCOPE COSISCOPE TEMPERATURE MINIMUM AT CAMERA" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "T1_SCOPE_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 9 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T1_SCOPE COSISCOPE TEMPERATURE MEAN AT CAMERA" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "T1_SCOPE_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 17 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T1_SCOPE COSISCOPE TEMPERATURE MAXIMUM AT CAMERA" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "T1_SCOPE_STD" DATA_TYPE = ASCII_REAL START_BYTE = 25 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T1_SCOPE COSISCOPE TEMPERATURE STANDARD DEVIATION AT CAMERE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = "T3_SCOPE_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 33 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T3_SCOPE COSISCOPE TEMPERATURE MINIMUM AT CDPU" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = "T3_SCOPE_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 41 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T3_SCOPE COSISCOPE TEMPERATURE MEAN AT CDPU" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = "T3_SCOPE_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 49 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T3_SCOPE COSISCOPE TEMPERATURE MAXIMUM AT CDPU" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = "T3_SCOPE_STD" DATA_TYPE = ASCII_REAL START_BYTE = 57 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T3_SCOPE COSISCOPE TEMPERATURE STANDARD DEVIATION AT CDPU" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = "T4_SCOPE_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 65 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T4_SCOPE COSISCOPE TEMPERATURE MINIMUM AT OPTICS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = "T4_SCOPE_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 73 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T4_SCOPE COSISCOPE TEMPERATURE MEAN AT OPTICS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = "T4_SCOPE_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 81 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T4_SCOPE COSISCOPE TEMPERATURE MAXIMUM AT OPTICS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = "T4_SCOPE_STD" DATA_TYPE = ASCII_REAL START_BYTE = 89 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T4_SCOPE COSISCOPE TEMPERATURE STANDARD DEVIATION AT OPTICS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = MODE DATA_TYPE = ASCII_INTEGER START_BYTE = 97 BYTES = 1 FORMAT = "I1" DESCRIPTION = "0 = ONLY GRAINS INFORMATION, 1 = ONE OR TWO COMPRESSED IMAGES ARE ALSO GENERATED DEPENDING ON THE COMMAND WORD" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 14 NAME = CCD_CLEAN DATA_TYPE = ASCII_INTEGER START_BYTE = 99 BYTES = 1 FORMAT = "I1" DESCRIPTION = "NUMBER OF ADDITIONAL CLEAN IMAGES WHICH HAVE BEEN PROGRAMMED TO GET RID OF ACCUMULATED CHARGES ON THE CCD. NOMINAL IS 0 FROM -20 CELSIUS DEGREE TO +25 CELSIUS DEGREE OPERATING TEMPERATURE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 15 NAME = DARK DATA_TYPE = ASCII_INTEGER START_BYTE = 101 BYTES = 1 FORMAT = "I1" DESCRIPTION = "0=NO DARK CURRENT SUBTRACTION, 1=DARK CURRENT SUBTRACTION THIS PARAMETER DEFINES WHETHER A DARK CURRENT IMAGE WAS TO BE SUBTRACTED FROM THE COSISCOPE IMAGE BEFORE THE IMPLEMENTATION OF THE GRAIN SEACH ALGORITHM AND (IF REQUIRED BY THE COMMAND) THE TRANSMISSION OF THE IMAGE(S)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 16 NAME = DETECTION DATA_TYPE = ASCII_INTEGER START_BYTE = 103 BYTES = 1 FORMAT = "I1" DESCRIPTION = "0 = GRAINS ARE SEARCHED FOR AS POSITIVE ALBEDO CONTRASTS 1 = EACH LINE (TOWARDS THE LED) IS FIRST DIFFERENTIATED, THEN GRAINS ARE SEARCHED FOR AS PEAKS IN THE DIFFERENTIALS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 17 NAME = THRESHOLD DATA_TYPE = ASCII_INTEGER START_BYTE = 105 BYTES = 1 FORMAT = "I1" DESCRIPTION = "THE DETECTION LEVEL (0 TO 7) DEFINE THE FACTOR ABOVE THE BACKGROUND, WHICH CONSTITUTES A DETECTION FOR VALUES 1 TO 7 FACTORS 5,6,7,8,10,12,16. A VALUE OF 0 GENERATES A TEST IMAGE WHICH IS PROCESSED NOMINALLY." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 18 NAME = PACKING DATA_TYPE = ASCII_INTEGER START_BYTE = 107 BYTES = 1 FORMAT = "I1" DESCRIPTION = "IMAGE COMPRESSION MODE (0 TO 3) 0: BIT-PACKING (10 BITS / PIXELS 1: REVERSIBLE COMPRESSION 2: WAVELET COMPRESSION, 1 BIT/PIXEL 3: WAVELET COMPRESSION, 2 BITS/PIXEL" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 19 NAME = MINUS_X_LED DATA_TYPE = ASCII_INTEGER START_BYTE = 109 BYTES = 1 FORMAT = "I1" DESCRIPTION = "0,1,2,4 =NO -X LED USED, 3,5,6,7=-X LED USED" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 20 NAME = PLUS_X_LED DATA_TYPE = ASCII_INTEGER START_BYTE = 111 BYTES = 1 FORMAT = "I1" DESCRIPTION = "0,1,2,4=NO +X LED USED, 3,5,6,7=+X LED USED" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 21 NAME = PLUS_X_LED_ACQ_TIME DATA_TYPE = ASCII_INTEGER START_BYTE = 113 BYTES = 5 UNIT = "MILLISECOND" FORMAT = "I5" DESCRIPTION = "PLUS X LED ACQUISITION TIME IN MS, DEFAULT 300 MS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 22 NAME = MINUS_X_LED_ACQ_TIME DATA_TYPE = ASCII_INTEGER START_BYTE = 119 BYTES = 5 UNIT = "MILLISECOND" FORMAT = "I5" DESCRIPTION = "MINUS X LED ACQUISITION TIME IN MS, DEFAULT 300 MS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 23 NAME = PLUS_X_LED_BIAS DATA_TYPE = ASCII_INTEGER START_BYTE = 125 BYTES = 3 FORMAT = "I3" DESCRIPTION = "PLUS X LED BIAS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 24 NAME = MINUS_X_LED_BIAS DATA_TYPE = ASCII_INTEGER START_BYTE = 129 BYTES = 3 FORMAT = "I3" DESCRIPTION = "MINUS X LED BIAS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 25 NAME = PLUS_X_LED_GAIN DATA_TYPE = ASCII_INTEGER START_BYTE = 133 BYTES = 3 FORMAT = "I3" DESCRIPTION = "PLUS X LED GAIN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 26 NAME = MINUS_X_LED_GAIN DATA_TYPE = ASCII_INTEGER START_BYTE = 137 BYTES = 3 FORMAT = "I3" DESCRIPTION = "MINUS X LED GAIN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 27 NAME = PLUS_X_CAL_QUALITY DATA_TYPE = ASCII_INTEGER START_BYTE = 141 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED CALIBRATION STRIP POSITION QUALITY" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 28 NAME = PLUS_X_AX DATA_TYPE = ASCII_INTEGER START_BYTE = 147 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED A DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 29 NAME = PLUS_X_AY DATA_TYPE = ASCII_INTEGER START_BYTE = 153 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED A DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 30 NAME = PLUS_X_BX DATA_TYPE = ASCII_INTEGER START_BYTE = 159 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED B DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 31 NAME = PLUS_X_BY DATA_TYPE = ASCII_INTEGER START_BYTE = 165 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED B DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 32 NAME = PLUS_X_LABEL DATA_TYPE = ASCII_INTEGER START_BYTE = 171 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED SUBSTRATE LABEL THE SUBSTRATE ID:S MATCH THE SUBSTRATE LABELS IN THE REFERENCE STRIP WITH THE FOLLOWING TABLE: 1C1 = 63 2C1 = 95 3C1 = 111 1C2 = 119 2C2 = 123 3C2 = 125 1C3 = 126 2C3 = 159 3C3 = 175 1C4 = 183 2C4 = 187 3C4 = 189 1C5 = 190 2C5 = 207 3C5 = 215 1C6 = 219 2C6 = 221 3C6 = 222 1C7 = 231 2C7 = 235 3C7 = 237 1C8 = 238 2C8 = 243 3C8 = 245 1C9 = 246 2C9 = 249 3C9 = 250 1CA = 252 2CA = 287 3CA = 303 1CB = 311 2CB = 315 3CB = 317 1CC = 318 2CC = 335 3CC = 343 1CD = 347 2CD = 349 3CD = 350 1CE = 359 2CE = 363 3CE = 365 1CF = 366 2CF = 371 3CF = 373 1D0 = 374 2D0 = 377 3D0 = 378 1D1 = 380 2D1 = 399 3D1 = 407 1D2 = 411 2D2 = 413 3D2 = 414 1D3 = 423 2D3 = 427 3D3 = 429 1D4 = 430 2D4 = 435 3D4 = 437 1D5 = 438 2D5 = 441 3D5 = 442 1D6 = 444 2D6 = 455 3D6 = 459 1D7 = 461 2D7 = 462 3D7 = 467 1D8 = 469 2D8 = 470 3D8 = 473" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 33 NAME = PLUS_X_SUBST_QUALITY DATA_TYPE = ASCII_INTEGER START_BYTE = 177 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED SUBSTRACE POSITION QUALITY" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 34 NAME = PLUS_X_CX DATA_TYPE = ASCII_INTEGER START_BYTE = 183 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED C DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 35 NAME = PLUS_X_CY DATA_TYPE = ASCII_INTEGER START_BYTE = 189 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED C DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 36 NAME = PLUS_X_DX DATA_TYPE = ASCII_INTEGER START_BYTE = 195 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED D DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 37 NAME = PLUS_X_DY DATA_TYPE = ASCII_INTEGER START_BYTE = 201 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED D DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 38 NAME = PLUS_X_TARGET_LABEL DATA_TYPE = ASCII_INTEGER START_BYTE = 207 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED TARGET LABEL (N/A WITH FLIGHT TARGETS)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 39 NAME = MINUS_X_CAL_QUALITY DATA_TYPE = ASCII_INTEGER START_BYTE = 213 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED CALIBRATION STRIP POSITION QUALITY" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 40 NAME = MINUS_X_AX DATA_TYPE = ASCII_INTEGER START_BYTE = 219 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED A DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 41 NAME = MINUS_X_AY DATA_TYPE = ASCII_INTEGER START_BYTE = 225 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED A DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 42 NAME = MINUS_X_BX DATA_TYPE = ASCII_INTEGER START_BYTE = 231 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED B DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 43 NAME = MINUS_X_BY DATA_TYPE = ASCII_INTEGER START_BYTE = 237 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED B DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 44 NAME = MINUS_X_LABEL DATA_TYPE = ASCII_INTEGER START_BYTE = 243 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED SUBSTRATE LABEL THE SUBSTRATE ID:S MATCH THE SUBSTRATE LABELS IN THE REFERENCE STRIP WITH THE FOLLOWING TABLE: 1C1 = 63 2C1 = 95 3C1 = 111 1C2 = 119 2C2 = 123 3C2 = 125 1C3 = 126 2C3 = 159 3C3 = 175 1C4 = 183 2C4 = 187 3C4 = 189 1C5 = 190 2C5 = 207 3C5 = 215 1C6 = 219 2C6 = 221 3C6 = 222 1C7 = 231 2C7 = 235 3C7 = 237 1C8 = 238 2C8 = 243 3C8 = 245 1C9 = 246 2C9 = 249 3C9 = 250 1CA = 252 2CA = 287 3CA = 303 1CB = 311 2CB = 315 3CB = 317 1CC = 318 2CC = 335 3CC = 343 1CD = 347 2CD = 349 3CD = 350 1CE = 359 2CE = 363 3CE = 365 1CF = 366 2CF = 371 3CF = 373 1D0 = 374 2D0 = 377 3D0 = 378 1D1 = 380 2D1 = 399 3D1 = 407 1D2 = 411 2D2 = 413 3D2 = 414 1D3 = 423 2D3 = 427 3D3 = 429 1D4 = 430 2D4 = 435 3D4 = 437 1D5 = 438 2D5 = 441 3D5 = 442 1D6 = 444 2D6 = 455 3D6 = 459 1D7 = 461 2D7 = 462 3D7 = 467 1D8 = 469 2D8 = 470 3D8 = 473" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 45 NAME = MINUS_X_SUBST_QUALITY DATA_TYPE = ASCII_INTEGER START_BYTE = 249 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED SUBSTRACE POSITION QUALITY" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 46 NAME = MINUS_X_CX DATA_TYPE = ASCII_INTEGER START_BYTE = 255 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED C DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 47 NAME = MINUS_X_CY DATA_TYPE = ASCII_INTEGER START_BYTE = 261 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED C DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 48 NAME = MINUS_X_DX DATA_TYPE = ASCII_INTEGER START_BYTE = 267 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED D DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 49 NAME = MINUS_X_DY DATA_TYPE = ASCII_INTEGER START_BYTE = 273 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED D DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 50 NAME = MINUS_X_TARGET_LABEL DATA_TYPE = ASCII_INTEGER START_BYTE = 279 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED TARGET LABEL (N/A WITH FLIGHT TARGETS)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 51 NAME = X_OFFSET DATA_TYPE = ASCII_REAL START_BYTE = 285 BYTES = 9 UNIT = "MICROMETER" FORMAT = "F9.2" DESCRIPTION = "SUBSTRATE OFFSET IN X" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 52 NAME = Y_OFFSET DATA_TYPE = ASCII_REAL START_BYTE = 295 BYTES = 9 UNIT = "MICROMETER" FORMAT = "F9.2" DESCRIPTION = "SUBSTRATE OFFSET IN Y" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 53 NAME = X_ORIGIN DATA_TYPE = ASCII_REAL START_BYTE = 305 BYTES = 9 UNIT = "MICROMETER" FORMAT = "F9.2" DESCRIPTION = "SUBSTRATE ORIGIN X IN COSISCOPE FIELD OF VIEW" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 53 NAME = Y_ORIGIN DATA_TYPE = ASCII_REAL START_BYTE = 315 BYTES = 9 UNIT = "MICROMETER" FORMAT = "F9.2" DESCRIPTION = "SUBSTRATE ORIGIN Y IN COSISCOPE FIELD OF VIEW" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 54 NAME = ROTATION DATA_TYPE = ASCII_REAL START_BYTE = 325 BYTES = 8 UNIT = "DEGREE" FORMAT = "F8.4" DESCRIPTION = "SUBSTRATE ROTATION ANGLE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "T1_SCOPE_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 1 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T1_SCOPE COSISCOPE TEMPERATURE MINIMUM AT CAMERA" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "T1_SCOPE_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 9 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T1_SCOPE COSISCOPE TEMPERATURE MEAN AT CAMERA" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "T1_SCOPE_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 17 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T1_SCOPE COSISCOPE TEMPERATURE MAXIMUM AT CAMERA" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "T1_SCOPE_STD" DATA_TYPE = ASCII_REAL START_BYTE = 25 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T1_SCOPE COSISCOPE TEMPERATURE STANDARD DEVIATION AT CAMERE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = "T3_SCOPE_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 33 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T3_SCOPE COSISCOPE TEMPERATURE MINIMUM AT CDPU" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = "T3_SCOPE_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 41 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T3_SCOPE COSISCOPE TEMPERATURE MEAN AT CDPU" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = "T3_SCOPE_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 49 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T3_SCOPE COSISCOPE TEMPERATURE MAXIMUM AT CDPU" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = "T3_SCOPE_STD" DATA_TYPE = ASCII_REAL START_BYTE = 57 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T3_SCOPE COSISCOPE TEMPERATURE STANDARD DEVIATION AT CDPU" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = "T4_SCOPE_MIN" DATA_TYPE = ASCII_REAL START_BYTE = 65 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T4_SCOPE COSISCOPE TEMPERATURE MINIMUM AT OPTICS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = "T4_SCOPE_MEAN" DATA_TYPE = ASCII_REAL START_BYTE = 73 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T4_SCOPE COSISCOPE TEMPERATURE MEAN AT OPTICS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = "T4_SCOPE_MAX" DATA_TYPE = ASCII_REAL START_BYTE = 81 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T4_SCOPE COSISCOPE TEMPERATURE MAXIMUM AT OPTICS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = "T4_SCOPE_STD" DATA_TYPE = ASCII_REAL START_BYTE = 89 BYTES = 7 UNIT = "DEGREE KELVIN" MISSING_CONSTANT = 999.9 FORMAT = "F7.1" DESCRIPTION = "T4_SCOPE COSISCOPE TEMPERATURE STANDARD DEVIATION AT OPTICS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = MODE DATA_TYPE = ASCII_INTEGER START_BYTE = 97 BYTES = 1 FORMAT = "I1" DESCRIPTION = "0 = ONLY GRAINS INFORMATION, 1 = ONE OR TWO COMPRESSED IMAGES ARE ALSO GENERATED DEPENDING ON THE COMMAND WORD" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 14 NAME = CCD_CLEAN DATA_TYPE = ASCII_INTEGER START_BYTE = 99 BYTES = 1 FORMAT = "I1" DESCRIPTION = "NUMBER OF ADDITIONAL CLEAN IMAGES WHICH HAVE BEEN PROGRAMMED TO GET RID OF ACCUMULATED CHARGES ON THE CCD. NOMINAL IS 0 FROM -20 CELSIUS DEGREE TO +25 CELSIUS DEGREE OPERATING TEMPERATURE" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 15 NAME = DARK DATA_TYPE = ASCII_INTEGER START_BYTE = 101 BYTES = 1 FORMAT = "I1" DESCRIPTION = "0=NO DARK CURRENT SUBTRACTION, 1=DARK CURRENT SUBTRACTION THIS PARAMETER DEFINES WHETHER A DARK CURRENT IMAGE WAS TO BE SUBTRACTED FROM THE COSISCOPE IMAGE BEFORE THE IMPLEMENTATION OF THE GRAIN SEACH ALGORITHM AND (IF REQUIRED BY THE COMMAND) THE TRANSMISSION OF THE IMAGE(S)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 16 NAME = DETECTION DATA_TYPE = ASCII_INTEGER START_BYTE = 103 BYTES = 1 FORMAT = "I1" DESCRIPTION = "0 = GRAINS ARE SEARCHED FOR AS POSITIVE ALBEDO CONTRASTS 1 = EACH LINE (TOWARDS THE LED) IS FIRST DIFFERENTIATED, THEN GRAINS ARE SEARCHED FOR AS PEAKS IN THE DIFFERENTIALS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 17 NAME = THRESHOLD DATA_TYPE = ASCII_INTEGER START_BYTE = 105 BYTES = 1 FORMAT = "I1" DESCRIPTION = "THE DETECTION LEVEL (0 TO 7) DEFINE THE FACTOR ABOVE THE BACKGROUND, WHICH CONSTITUTES A DETECTION FOR VALUES 1 TO 7 FACTORS 5,6,7,8,10,12,16. A VALUE OF 0 GENERATES A TEST IMAGE WHICH IS PROCESSED NOMINALLY." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 18 NAME = PACKING DATA_TYPE = ASCII_INTEGER START_BYTE = 107 BYTES = 1 FORMAT = "I1" DESCRIPTION = "IMAGE COMPRESSION MODE (0 TO 3) 0: BIT-PACKING (10 BITS / PIXELS 1: REVERSIBLE COMPRESSION 2: WAVELET COMPRESSION, 1 BIT/PIXEL 3: WAVELET COMPRESSION, 2 BITS/PIXEL" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 19 NAME = MINUS_X_LED DATA_TYPE = ASCII_INTEGER START_BYTE = 109 BYTES = 1 FORMAT = "I1" DESCRIPTION = "0,1,2,4 =NO -X LED USED, 3,5,6,7=-X LED USED" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 20 NAME = PLUS_X_LED DATA_TYPE = ASCII_INTEGER START_BYTE = 111 BYTES = 1 FORMAT = "I1" DESCRIPTION = "0,1,2,4=NO +X LED USED, 3,5,6,7=+X LED USED" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 21 NAME = PLUS_X_LED_ACQ_TIME DATA_TYPE = ASCII_INTEGER START_BYTE = 113 BYTES = 5 UNIT = "MILLISECOND" FORMAT = "I5" DESCRIPTION = "PLUS X LED ACQUISITION TIME IN MS, DEFAULT 300 MS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 22 NAME = MINUS_X_LED_ACQ_TIME DATA_TYPE = ASCII_INTEGER START_BYTE = 119 BYTES = 5 UNIT = "MILLISECOND" FORMAT = "I5" DESCRIPTION = "MINUS X LED ACQUISITION TIME IN MS, DEFAULT 300 MS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 23 NAME = PLUS_X_LED_BIAS DATA_TYPE = ASCII_INTEGER START_BYTE = 125 BYTES = 3 FORMAT = "I3" DESCRIPTION = "PLUS X LED BIAS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 24 NAME = MINUS_X_LED_BIAS DATA_TYPE = ASCII_INTEGER START_BYTE = 129 BYTES = 3 FORMAT = "I3" DESCRIPTION = "MINUS X LED BIAS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 25 NAME = PLUS_X_LED_GAIN DATA_TYPE = ASCII_INTEGER START_BYTE = 133 BYTES = 3 FORMAT = "I3" DESCRIPTION = "PLUS X LED GAIN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 26 NAME = MINUS_X_LED_GAIN DATA_TYPE = ASCII_INTEGER START_BYTE = 137 BYTES = 3 FORMAT = "I3" DESCRIPTION = "MINUS X LED GAIN" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 27 NAME = PLUS_X_CAL_QUALITY DATA_TYPE = ASCII_INTEGER START_BYTE = 141 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED CALIBRATION STRIP POSITION QUALITY" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 28 NAME = PLUS_X_AX DATA_TYPE = ASCII_INTEGER START_BYTE = 147 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED A DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 29 NAME = PLUS_X_AY DATA_TYPE = ASCII_INTEGER START_BYTE = 153 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED A DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 30 NAME = PLUS_X_BX DATA_TYPE = ASCII_INTEGER START_BYTE = 159 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED B DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 31 NAME = PLUS_X_BY DATA_TYPE = ASCII_INTEGER START_BYTE = 165 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED B DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 32 NAME = PLUS_X_LABEL DATA_TYPE = ASCII_INTEGER START_BYTE = 171 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED SUBSTRATE LABEL THE SUBSTRATE ID:S MATCH THE SUBSTRATE LABELS IN THE REFERENCE STRIP WITH THE FOLLOWING TABLE: 1C1 = 63 2C1 = 95 3C1 = 111 1C2 = 119 2C2 = 123 3C2 = 125 1C3 = 126 2C3 = 159 3C3 = 175 1C4 = 183 2C4 = 187 3C4 = 189 1C5 = 190 2C5 = 207 3C5 = 215 1C6 = 219 2C6 = 221 3C6 = 222 1C7 = 231 2C7 = 235 3C7 = 237 1C8 = 238 2C8 = 243 3C8 = 245 1C9 = 246 2C9 = 249 3C9 = 250 1CA = 252 2CA = 287 3CA = 303 1CB = 311 2CB = 315 3CB = 317 1CC = 318 2CC = 335 3CC = 343 1CD = 347 2CD = 349 3CD = 350 1CE = 359 2CE = 363 3CE = 365 1CF = 366 2CF = 371 3CF = 373 1D0 = 374 2D0 = 377 3D0 = 378 1D1 = 380 2D1 = 399 3D1 = 407 1D2 = 411 2D2 = 413 3D2 = 414 1D3 = 423 2D3 = 427 3D3 = 429 1D4 = 430 2D4 = 435 3D4 = 437 1D5 = 438 2D5 = 441 3D5 = 442 1D6 = 444 2D6 = 455 3D6 = 459 1D7 = 461 2D7 = 462 3D7 = 467 1D8 = 469 2D8 = 470 3D8 = 473" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 33 NAME = PLUS_X_SUBST_QUALITY DATA_TYPE = ASCII_INTEGER START_BYTE = 177 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED SUBSTRACE POSITION QUALITY" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 34 NAME = PLUS_X_CX DATA_TYPE = ASCII_INTEGER START_BYTE = 183 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED C DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 35 NAME = PLUS_X_CY DATA_TYPE = ASCII_INTEGER START_BYTE = 189 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED C DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 36 NAME = PLUS_X_DX DATA_TYPE = ASCII_INTEGER START_BYTE = 195 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED D DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 37 NAME = PLUS_X_DY DATA_TYPE = ASCII_INTEGER START_BYTE = 201 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED D DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 38 NAME = PLUS_X_TARGET_LABEL DATA_TYPE = ASCII_INTEGER START_BYTE = 207 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "PLUS X LED TARGET LABEL (N/A WITH FLIGHT TARGETS)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 39 NAME = MINUS_X_CAL_QUALITY DATA_TYPE = ASCII_INTEGER START_BYTE = 213 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED CALIBRATION STRIP POSITION QUALITY" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 40 NAME = MINUS_X_AX DATA_TYPE = ASCII_INTEGER START_BYTE = 219 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED A DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 41 NAME = MINUS_X_AY DATA_TYPE = ASCII_INTEGER START_BYTE = 225 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED A DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 42 NAME = MINUS_X_BX DATA_TYPE = ASCII_INTEGER START_BYTE = 231 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED B DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 43 NAME = MINUS_X_BY DATA_TYPE = ASCII_INTEGER START_BYTE = 237 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED B DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 44 NAME = MINUS_X_LABEL DATA_TYPE = ASCII_INTEGER START_BYTE = 243 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED SUBSTRATE LABEL THE SUBSTRATE ID:S MATCH THE SUBSTRATE LABELS IN THE REFERENCE STRIP WITH THE FOLLOWING TABLE: 1C1 = 63 2C1 = 95 3C1 = 111 1C2 = 119 2C2 = 123 3C2 = 125 1C3 = 126 2C3 = 159 3C3 = 175 1C4 = 183 2C4 = 187 3C4 = 189 1C5 = 190 2C5 = 207 3C5 = 215 1C6 = 219 2C6 = 221 3C6 = 222 1C7 = 231 2C7 = 235 3C7 = 237 1C8 = 238 2C8 = 243 3C8 = 245 1C9 = 246 2C9 = 249 3C9 = 250 1CA = 252 2CA = 287 3CA = 303 1CB = 311 2CB = 315 3CB = 317 1CC = 318 2CC = 335 3CC = 343 1CD = 347 2CD = 349 3CD = 350 1CE = 359 2CE = 363 3CE = 365 1CF = 366 2CF = 371 3CF = 373 1D0 = 374 2D0 = 377 3D0 = 378 1D1 = 380 2D1 = 399 3D1 = 407 1D2 = 411 2D2 = 413 3D2 = 414 1D3 = 423 2D3 = 427 3D3 = 429 1D4 = 430 2D4 = 435 3D4 = 437 1D5 = 438 2D5 = 441 3D5 = 442 1D6 = 444 2D6 = 455 3D6 = 459 1D7 = 461 2D7 = 462 3D7 = 467 1D8 = 469 2D8 = 470 3D8 = 473" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 45 NAME = MINUS_X_SUBST_QUALITY DATA_TYPE = ASCII_INTEGER START_BYTE = 249 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED SUBSTRACE POSITION QUALITY" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 46 NAME = MINUS_X_CX DATA_TYPE = ASCII_INTEGER START_BYTE = 255 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED C DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 47 NAME = MINUS_X_CY DATA_TYPE = ASCII_INTEGER START_BYTE = 261 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED C DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 48 NAME = MINUS_X_DX DATA_TYPE = ASCII_INTEGER START_BYTE = 267 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED D DOT X POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 49 NAME = MINUS_X_DY DATA_TYPE = ASCII_INTEGER START_BYTE = 273 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED D DOT Y POSITION" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 50 NAME = MINUS_X_TARGET_LABEL DATA_TYPE = ASCII_INTEGER START_BYTE = 279 BYTES = 5 FORMAT = "I5" MISSING_CONSTANT = 43960 DESCRIPTION = "MINUS X LED TARGET LABEL (N/A WITH FLIGHT TARGETS)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 51 NAME = X_OFFSET DATA_TYPE = ASCII_REAL START_BYTE = 285 BYTES = 9 UNIT = "MICROMETER" FORMAT = "F9.2" DESCRIPTION = "SUBSTRATE OFFSET IN X" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 52 NAME = Y_OFFSET DATA_TYPE = ASCII_REAL START_BYTE = 295 BYTES = 9 UNIT = "MICROMETER" FORMAT = "F9.2" DESCRIPTION = "SUBSTRATE OFFSET IN Y" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 53 NAME = X_ORIGIN DATA_TYPE = ASCII_REAL START_BYTE = 305 BYTES = 9 UNIT = "MICROMETER" FORMAT = "F9.2" DESCRIPTION = "SUBSTRATE ORIGIN X IN COSISCOPE FIELD OF VIEW" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 53 NAME = Y_ORIGIN DATA_TYPE = ASCII_REAL START_BYTE = 315 BYTES = 9 UNIT = "MICROMETER" FORMAT = "F9.2" DESCRIPTION = "SUBSTRATE ORIGIN Y IN COSISCOPE FIELD OF VIEW" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 54 NAME = ROTATION DATA_TYPE = ASCII_REAL START_BYTE = 325 BYTES = 8 UNIT = "DEGREE" FORMAT = "F8.4" DESCRIPTION = "SUBSTRATE ROTATION ANGLE" END_OBJECT = COLUMN 7 Substrate history ancillary product 1 General description Substrate history product contains information about substrate storage and expose periods, cleaning and heating actions, COSISCOPE camera images and grains lists and any spectra taken. The history product contains history from the moment substrates were installed in the COSIMA flight instrument. 2 Label example PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.1" /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 148 FILE_RECORDS = 67 LABEL_RECORDS = 18 /* POINTER TO DATA OBJECT */ ^HISTORY_TABLE = 19 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_2D8_SUBSTRATE_HIST.TAB" DATA_SET_ID = "RO-CAL-COSIMA-3-V2.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 3 V2.0" PRODUCT_ID = "CS_2D8_SUBSTRATE_HIST" PRODUCT_CREATION_TIME = 2008-11-12T09:15:54 PRODUCT_TYPE = "ANCDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "N/A" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "N/A" INSTRUMENT_MODE_DESC = "N/A" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2002-05-29T00:00:00 STOP_TIME = 2008-07-24T00:00:00 SPACECRAFT_CLOCK_START_COUNT = "N/A" SPACECRAFT_CLOCK_STOP_COUNT = "1/0175478364.35517" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "2D8" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, blank" OBJECT = HISTORY_TABLE NAME = SUBSTRATE_HISTORY INTERCHANGE_FORMAT = ASCII ROWS = 49 COLUMNS = 9 ROW_BYTES = 148 ^STRUCTURE = "COSIMA_HISTORY.FMT" DESCRIPTION = "SUBSTRATE HISTORY" END_OBJECT = HISTORY_TABLE PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "V1.0" RELEASE_ID = 0001 REVISION_ID = 0000 /* FILE FORMAT */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 211 FILE_RECORDS = 3810 LABEL_RECORDS = 19 /* POINTER TO DATA OBJECT */ ^HISTORY_TABLE = 20 /* GENERAL DATA DESCRIPTION PARAMETERS */ FILE_NAME = "CS_1C2_SUBSTRATE_HIST.TAB" DATA_SET_ID = "RO-CAL-COSIMA-2-V1.0" DATA_SET_NAME = "ROSETTA-ORBITER CAL COSIMA 2 V1.0" PRODUCT_ID = "CS_1C2_SUBSTRATE_HIST" PRODUCT_CREATION_TIME = 2006-10-05T10:26:39 PRODUCT_TYPE = "ANCDR" PROCESSING_LEVEL_ID = 2 MISSION_ID = "ROSETTA" MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" MISSION_PHASE_NAME = "N/A" INSTRUMENT_HOST_ID = "RO" INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER" INSTRUMENT_ID = "COSIMA" INSTRUMENT_NAME = "COMETARY SECONDARY ION MASS ANALYZER" INSTRUMENT_TYPE = "MASS SPECTROMETER" INSTRUMENT_MODE_ID = "N/A" INSTRUMENT_MODE_DESC = "N/A" TARGET_NAME = "CALIBRATION" TARGET_TYPE = "CALIBRATION" START_TIME = 2002-05-29T00:00:00 STOP_TIME = 2006-08-28T00:00:00 SPACECRAFT_CLOCK_START_COUNT = "N/A" SPACECRAFT_CLOCK_STOP_COUNT = "1/0115343974.01151" SC_SUN_POSITION_VECTOR = "N/A" SC_TARGET_POSITION_VECTOR = "N/A" SC_TARGET_VELOCITY_VECTOR = "N/A" SPACECRAFT_ALTITUDE = "N/A" SUB_SPACECRAFT_LATITUDE = "N/A" SUB_SPACECRAFT_LONGITUDE = "N/A" PRODUCER_ID = "FMI" PRODUCER_FULL_NAME = "JOHAN SILEN" PRODUCER_INSTITUTION_NAME = "FINNISH METEOROLOGICAL INSTITUTE" DATA_QUALITY_ID = -1 DATA_QUALITY_DESC = "-1 = not checked" ROSETTA:COSIMA_SUBSTRATE_ID = "1C2" ROSETTA:COSIMA_SUBSTRATE_DESC = "Silver, 73 micrometer thickness, blank with rectangular hole 3.5x3.5mm" OBJECT = HISTORY_TABLE NAME = SUBSTRATE_HISTORY INTERCHANGE_FORMAT = ASCII ROWS = 3791 COLUMNS = 9 ROW_BYTES = 148 ^STRUCTURE = "COSIMA_HISTORY.FMT" DESCRIPTION = "SUBSTRATE HISTORY" END_OBJECT = HISTORY_TABLE END END COSIMA_HISTORY.FMT: OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = UTC_START_DATE DATA_TYPE = DATE START_BYTE = 1 BYTES = 19 FORMAT = "A19" DESCRIPTION = "START TIME IN UTC" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = UTC_STOP_DATE DATA_TYPE = DATE START_BYTE = 21 BYTES = 19 FORMAT = "A19" DESCRIPTION = "STOP TIME IN UTC" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = TIME DATA_TYPE = ASCII_INTEGER START_BYTE = 41 BYTES = 10 UNIT = "SECOND" MISSING_CONSTANT = -1 FORMAT = "I10" DESCRIPTION = "TIME SPENT IN THE POSITION IN SECONDS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = POSITION DATA_TYPE = CHARACTER START_BYTE = 53 BYTES = 9 FORMAT = "A9" DESCRIPTION = "POSITION, POSSIBLE VALUES ARE STORAGE, in target storage IMAGE, substrate image GRAINS, dust position list PEAKS, peak list acquisition SCAN, total count acquition SPECTRUM, spectrum acquistion EXPOSE, exposed to the outside CLEAN, at beam cleaning position CHEMISTRY, at heating station" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = X_COORDINATE DATA_TYPE = ASCII_INTEGER START_BYTE = 64 BYTES = 5 UNIT = "MICROMETER" MISSING_CONSTANT = -1 FORMAT = "I5" DESCRIPTION = "SUBSTRATE X-COORDINATE IN MICROMETERS, ZERO IS AT LEFT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = Y_COORDINATE DATA_TYPE = ASCII_INTEGER START_BYTE = 70 BYTES = 5 UNIT = "MICROMETER" MISSING_CONSTANT = -1 FORMAT = "I5" DESCRIPTION = "SUBSTRATE Y-COORDINATE IN MICROMETERS, ZERO IS AT BOTTOM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = TIP_CURRENT DATA_TYPE = ASCII_INTEGER START_BYTE = 76 BYTES = 3 MISSING_CONSTANT = -99 FORMAT = "I3" UNIT = "MICROAMPERE" DESCRIPTION = "INDIUM BEAM TIP CURRENT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = SCIENCE_FILENAME DATA_TYPE = CHARACTER START_BYTE = 81 BYTES = 31 FORMAT = "A31" DESCRIPTION = "SCIENCE DATA LABEL FILENAME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = HOUSEKEEPING_FILENAME DATA_TYPE = CHARACTER START_BYTE = 115 BYTES = 31 FORMAT = "A31" DESCRIPTION = "SCIENCE DATA RELATED HOUSEKEEPING LABEL FILENAME" OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = UTC_START_DATE DATA_TYPE = DATE START_BYTE = 1 BYTES = 19 FORMAT = "A19" DESCRIPTION = "START TIME IN UTC" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = UTC_STOP_DATE DATA_TYPE = DATE START_BYTE = 21 BYTES = 19 FORMAT = "A19" DESCRIPTION = "STOP TIME IN UTC" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = TIME DATA_TYPE = ASCII_INTEGER START_BYTE = 41 BYTES = 10 UNIT = "SECOND" MISSING_CONSTANT = -1 FORMAT = "I10" DESCRIPTION = "TIME SPENT IN THE POSITION IN SECONDS" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = POSITION DATA_TYPE = CHARACTER START_BYTE = 53 BYTES = 9 FORMAT = "A9" DESCRIPTION = "POSITION, POSSIBLE VALUES ARE DEPOSIT, to be positioned STORAGE, in target storage GRASPED, moved by the TMU IMAGE, substrate image GRAINS, dust position list PEAKS, peak list acquisition SCAN, total count acquition SPECTRUM, spectrum acquistion EXPOSE, exposed to the outside CLEAN, at beam cleaning position CHEMISTRY, at heating station" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = X_COORDINATE DATA_TYPE = ASCII_INTEGER START_BYTE = 64 BYTES = 5 UNIT = "MICROMETER" MISSING_CONSTANT = -1 FORMAT = "I5" DESCRIPTION = "SUBSTRATE X-COORDINATE IN MICROMETERS, ZERO IS AT LEFT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = Y_COORDINATE DATA_TYPE = ASCII_INTEGER START_BYTE = 70 BYTES = 5 UNIT = "MICROMETER" MISSING_CONSTANT = -1 FORMAT = "I5" DESCRIPTION = "SUBSTRATE Y-COORDINATE IN MICROMETERS, ZERO IS AT BOTTOM" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = TIP_CURRENT DATA_TYPE = ASCII_INTEGER START_BYTE = 76 BYTES = 3 MISSING_CONSTANT = -99 FORMAT = "I3" UNIT = "MICROAMPERE" DESCRIPTION = "INDIUM BEAM TIP CURRENT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = SCIENCE_FILENAME DATA_TYPE = CHARACTER START_BYTE = 81 BYTES = 31 FORMAT = "A31" DESCRIPTION = "SCIENCE DATA LABEL FILENAME" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = HOUSEKEEPING_FILENAME DATA_TYPE = CHARACTER START_BYTE = 115 BYTES = 31 FORMAT = "A31" DESCRIPTION = "SCIENCE DATA RELATED HOUSEKEEPING LABEL FILENAME" END_OBJECT = COLUMN END_OBJECT = COLUMN Appendix: Directory Listing of Data Set RO-CAL-COSIMA-23-V12.0 TOP-LEVEL-DIRECTORY | |- AAREADME.TXT Dataset Read Me file | |- VOLDESC.CAT Description of the data volume | |- [CATALOG] The directory containing information | | about COSIMA calibration data set | | | |- CATINFO.TXT Info about CATALOG directory contents | | | |- MISSION.CAT Rosetta mission description, provided | | by Rosetta project | | | |- INSTHOST.CAT Rosetta spacecraft description, | | provided by Rosetta project | | | |- INST.CAT COSIMA instrument description | | | |- DATASET.CAT Dataset description | | | |- SOFTWARE.CAT Software description. Empty for | | COSIMA datasets | | | |- PERSON.CAT Dataset provider contact information | | | |- REF.CAT References | |- [DATA] The directory for instrument data | | products | | | |- [SUB_YXX] Substrate YXX data products, where | | | Y is substrate target holder position | | | 1=top, 2=middle, 3=bottom. XX is | | | target holder ID number, range | | | from C1 to D8, where counting is done | | | in hexadecimal | | | | | |- CS_YXX_SUBSTRATE_HISTORY.TAB | | | Substrate history product, where | | | Y is substrate target holder position | | | 1=top, 2=middle, 3=bottom. XX is | | | target holder ID number, range | | | from C1 to D8, where counting is done | | | in hexadecimal | | | | | |- CS_YXX_YYYYMMDDTHHMMSS_SP_Z.TAB | | | Substrate spectrum, where | | | Y is substrate target holder position | | | 1=top, 2=middle, 3=bottom. XX is | | | target holder ID number, range | | | from C1 to D8, where counting is done | | | in hexadecimal. YYYYMMDDTHHMMSS is | | | the date. Z is either P for positive | | | or N for negative spectrum. | | | | | |- CS_YXX_YYYYMMDDTHHMMSS_PK_Z.TAB | | | Substrate peak list, where | | | Y is substrate target holder position | | | 1=top, 2=middle, 3=bottom. XX is | | | target holder ID number, range | | | from C1 to D8, where counting is done | | | in hexadecimal. YYYYMMDDTHHMMSS is | | | the date. Z is either P for positive | | | or N for negative peak list. | | | | | |- CS_YXX_YYYYMMDDTHHMMSS_S_HK.TAB | | | Substrate spectrum or peak list | | | housekeeping data, where | | | Y is substrate target holder position | | | 1=top, 2=middle, 3=bottom. XX is | | | target holder ID number, range | | | from C1 to D8, where counting is done | | | in hexadecimal. YYYYMMDDTHHMMSS is | | | the date. | | | | | |- CS_YXX_YYYYMMDDTHHMMSS_GR__.TAB | | | Substrate grain list, where | | | Y is substrate target holder position | | | 1=top, 2=middle, 3=bottom. XX is | | | target holder ID number, range | | | from C1 to D8, where counting is done | | | in hexadecimal. YYYYMMDDTHHMMSS is | | | the date. | | | | | |- CS_YXX_YYYYMMDDTHHMMSS_IM_Z.IMG | | | Substrate image, where | | | Y is substrate target holder position | | | 1=top, 2=middle, 3=bottom. XX is | | | target holder ID number, range | | | from C1 to D8, where counting is done | | | in hexadecimal. YYYYMMDDTHHMMSS is | | | the date. Z is either P for plus (right)side led or M for minus (left) | | | side led illumination. | | | | | |- CS_YXX_YYYYMMDDTHHMMSS_G_HK.TAB | | | Substrate grain list or image | | | housekeeping data, where | | | Y is substrate target holder position | | | 1=top, 2=middle, 3=bottom. XX is | | | target holder ID number, range | | | from C1 to D8, where counting is done | | | in hexadecimal. YYYYMMDDTHHMMSS is | | | the date. | |- [DOCUMENT] The directory for documentation | | | |- DOCINFO.TXT Info about DOCUMENT directory | | contents | | | |- COSIMASIS.ASC COSIMA PDS interface description | | in ASCII format | | | |- COSIMASIS.PDF COSIMA PDS interface description | | in PDF format | | | |- COSIMASISXXX.JPG COSIMA PDS interface description | | images in JPG format. | | |- COSIMAPAPER.ASC COSIMA instrument paper | | in ASCII format | | | |- COSIMAPAPER.PDF COSIMA instrument paper | | in PDF format | | | |- COSIMAPAPERXXX.JPG COSIMA instrument paper | | images in JPG format. | | |- [INDEX] The directory for index files | | | |- INDEX.LBL A PDS detached label describing | | INDEX.TAB | | | |- INDEX.TAB Tabular summary of the data files | | | |- INDXINFO.TXT Info about INDEX directory contents | |- [LABEL] The directory for formatting files | | used by the attached labels | | | |- LABINFO.TXT Info about LABEL directory contents | | | |- COSIMA_HISTORY.FMT Substrate history column object | | definitions | | | |- COSIMA_SPECTRUM_DATA.FMT Spectrum data column object | | definitions | | | |- COSIMA_SPECTRUM_HK.FMT Spectrum housekeeping statistics | | column object definitions | | | |- COSIMA_SPECTRUM_PEAKS.FMT Spectrum peak data column object | | definitions | | | |- COSIMA_SPECTRUM_PEAK_SCALE.FMT Spectrum peak data scaling column | | object definitions | | | |- COSIMA_SPECTRUM_TDC_CALIB.FMT Spectrum time to digital unit | | temperature calibration result | | column object definitions | | | |- COSIMA_SPECTRUM_TDC_TIMING.FMT Spectrum time to digital unit | | timing setup column object | | definitions | | | |- COSISCOPE_GRAINS.FMT Cosiscope grain search result | | column object definitions | | | |- COSISCOPE_HK.FMT Cosiscope housekeeping statistics | column object definitions ----------------------- [pic]Figure 1: COSIMA subsystemFigures schematics [pic]Illustration 3.1: