! Skeleton table for the "de1_6sec_magagms_00000000_v01.cdf" CDF. ! Generated: Thursday, 14-Mar-2024 11:12:14 ! CDF created/modified by CDF V3.8.1 ! Skeleton table created by CDF V3.8.1_0 #header CDF NAME: de1_6sec_magagms_00000000_v01.cdf DATA ENCODING: NETWORK MAJORITY: COLUMN FORMAT: SINGLE ! Variables G.Attributes V.Attributes Records Dims Sizes ! --------- ------------ ------------ ------- ---- ----- 0/16 18 26 0/z 0 ! CDF_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! CDF_CHECKSUM: None ! (Valid checksum: None, MD5) ! CDF_LEAPSECONDLASTUPDATED: 20170101 #GLOBALattributes ! Attribute Entry Data ! Name Number Type Value ! --------- ------ ---- ----- "TITLE" 1: CDF_CHAR { "DE-1 Magnetometer 6 second" - " gms data" } . "Project" 1: CDF_CHAR { "DE>Dynamics Explorer" } . "Source_name" 1: CDF_CHAR { "DE>Dynamics Explorer" } . "Discipline" 1: CDF_CHAR { "Space " - "Physics>Magnetospheric " - "Ionospheric Interactions" } . "Descriptor" 1: CDF_CHAR { "6sec> 6 second " } . "Data_type" 1: CDF_CHAR { "magagms> Magnetic Field " - "Observations Triaxial " - "Fluxgate Magnetometer " - "(MAG-A)" } . "Data_version" 1: CDF_CHAR { "1" } . "Text" 1: CDF_CHAR { "Dynamics Explorer 1 " - "spacecraft was one of two " - "satellites in the Dynamics" - " Explorer program. The " - "DE-1 and DE-2 satellites " - "were launched by the same " - "vehicle so that their " - "orbits would be coplanar, " - "allowing two-point " - "measurements along " - "magnetic field lines, for " - "the purpose of studying " - "coupling between the " - "magnetosphere, ionosphere," - " and upper atmosphere. " - "The DE-1 orbit was highly " - "elliptical with an apogee " - "of 4.35 Re and a perigee " - "of 500 km whereas the DE-2" - " spacecraft was placed in " - "a much lower 300 x 1000 km" - " altitude orbit. DE-1 was " - "spin stabilized with its " - "spin axis normal to the " - "plane of the orbit. DE-2 " - "was three axis stabilized " - "with one face being nadir " - "oriented. " } 2: CDF_CHAR { "The study of field-aligned" - " currents and MHD waves " - "were the primary " - "objectives of the DE-1/2 " - "magnetometer " - "investigation. Comparison " - "of the magnetometer data " - "with measurements of " - "precipitating charged " - "particles yielded new " - "information on the " - "field-aligned current " - "carriers. In combination " - "with the electric field " - "measurements, it was " - "possible to determine the " - "vertical Poynting Flux of " - "electromagnetic energy " - "flowing between the " - "magnetosphere and " - "ionosphere and to separate" - " small-scale field-aligned" - " currents from MHD waves " - "through the evaluation of " - "the local ratio of the " - "electric to magnetic field" - " amplitudes in these " - "perturbations. The " - "field-aligned current " - "measurements and neutral " - "atmosphere observations " - "also provided an " - "opportunity for " - "investigating " - "atmosphere-magnetosphere " - "coupling and assessing the" - " total rate of energy " - "transfer into the upper " - "atmosphere. Finally, the " - "DE-1/2 magnetometer " - "investigation provided a " - "vital service in so far as" - " a knowledge of magnetic " - "field direction and " - "intensity is essential to " - "any number of space plasma" - " science investigations " - "utilizing the various " - "DE-1/2 particles and " - "fields data sets. " } 3: CDF_CHAR { "The DE-1 magnetic field " - "(MAG-A) 6-second average " - "resolution data set " - "consists of averages of " - "the high resolution " - "triaxial fluxgate " - "measurements taken every " - "62.5 msec (i.e., 16 " - "vectors/second). The " - "MAG-A data set consists of" - " the three components of " - "the model magnetic field " - "and difference field, " - "B-Radial (Br), B-Theta " - "(Bth), and B-Phi (Bph), in" - " *old* Geomagnetic " - "Spherical (GMS) " - "Coordinates, and the " - "difference field in local " - "*new* Geographic Spherical" - " (GGS) and Geomagnetic " - "Spherical (GMS) " - "Coordinates, respectively," - " and the difference field " - "in local magnetic " - "coordinates (b-para, " - "b-parp1, b-parp2). The R," - " Theta and Phi axes are " - "positive in the directions" - " of increasing radial " - "distance from the center " - "of the Earth (i.e., " - "outward), increasing " - "magnetic colatitude (i.e.," - " southward) and increasing" - " azimuth angle (i.e., " - "magnetic east). The " - "reference for the MAGSAT " - "magnetic field model is " - "Langel et al., Geophys. " - "Res. Lett., 7, 793, 1980. " - "The following Orbit " - "Attitude (OA) parameters " - "are also included in the " - "data set: altitude, " - "geographic latitude and " - "longitude, magnetic local " - "time, and invariant " - "latitude. The data are " - "provided in daily files in" - " ASCII format. [updated by" - " Robert.M.Candey@nasa.gov," - " 2006 Jan 17, per email " - "dated Date: Thu, 18 Feb 99" - " 17:08:59 JST From: " - "iyemori@swdcgw.kugi.kyoto-" - "u.ac.jp " - "(Toshihiko_Iyemori)] As " - "described in Farthing et " - "al. (1981), the DE-1 " - "magnetometer had a digital" - " resolution of +1.5 nT in " - "its low altitude, least " - "sensitive mode. Two higher" - " sensitivity modes were " - "used at higher altitudes " - "with digital resolutions " - "of +0.25 nT and +0.02 nT, " - "respectively. The data set" - " consists of daily files " - "from 81258 to 91049 in " - "ASCII format. Each file " - "contains all of the data " - "available for a given day." - " " } 4: CDF_CHAR { "The dominant source of " - "error in the DE-1 magnetic" - " field measurements is the" - " uncertainty in the " - "attitude of the " - "spacecraft. The DE-1 " - "spacecraft was designed to" - " an attitude uncertainty " - "specification of about 0.3" - " degree which appears to " - "have been met much of the " - "time. As a rule of thumb " - "each 0.1 degree in " - "attitude uncertainty near " - "perigee corresponds to an " - "error of approximately 100" - " nT in each component of " - "the field when the " - "magnetic field measured at" - " the sensors is " - "transferred to an inertial" - " frame of reference or a " - "model field is transferred" - " into the 0spacecraft " - "frame and subtracted from " - "the measured field. For " - "this reason it is common " - "for the residual, or " - "delta-B field obtained by " - "subtracting the model " - "field at low altitudes " - "(i.e., high fields) to " - "show a gradual shift of " - "several 100 nT from the " - "start of a passage across " - "the polar cap to the other" - " side. (These slow shifts" - " in the baselines of the " - "vector field components do" - " not affect most " - "scientific analyses, e.g.," - " field-aligned current " - "measurements, but they can" - " be effectively dealt with" - " through modeling if need " - "be. At higher altitudes " - "the ambient field " - "intensity is less and the " - "uncertainty due to " - "attitude errors is " - "correspondingly smaller." } 5: CDF_CHAR { "The absolute accuracy of " - "the DE-1 total magnetic " - "field measurement has also" - " been evaluated through " - "comparison with the " - "precision vector/scalar " - "magnetic field " - "observatories located on " - "the ground which are used " - "to monitor the geomagnetic" - " field. On the basis of " - "such cross-comparisons " - "utilizing DE-1 perigee " - "data over the life of the " - "mission, R. Langel " - "(private communication, " - "1994) found excellent " - "agreement between the " - "MAG-A and ground-based " - "observatory scalar data " - "sets at the 20 to 40 nT " - "level. " } 6: CDF_CHAR { "In using any unfamiliar " - "data set, caution is " - "advised and tests to " - "screen out instrumental " - "artifacts should be " - "devised before reaching " - "important conclusions." } 7: CDF_CHAR { "De-spinning high " - "sensitivity, boom mounted " - "vector magnetometer data " - "in high fields (i.e., " - ">1000 nT) frequently " - "results in a readily " - "observable residual signal" - " at the spin period and " - "its harmonics. In the case" - " of the DE-1 magnetometer " - "measurements, the dominant" - " causes of residual spin " - "tone were found to be " - "small (0.1 to 0.01%) " - "changes in the instrument " - "scale factors and boom " - "bending of up to several " - "tenths of a degree in " - "response to varying " - "thermal inputs due to " - "orbit/attitude driven " - "changes in solar " - "illumination (e.g., " - "seasonal variations, " - "eclipses, etc.). These " - "effects were minimized " - "through an orbit by orbit " - "calibration procedure " - "which analyzed the " - "residual spin tone around " - "apogee and perigee and " - "adjusted the scale factors" - " and sensor attitude " - "accordingly. Even after " - "these in-flight " - "calibration activities, " - "residual spin tone signals" - " in the MAG-A data with " - "amplitudes of tens of " - "nanotesla are common in " - "high fields around " - "perigee. The most probable" - " cause of these residuals " - "is the transverse field " - "dependence of fluxgate " - "magnetometers in high " - "fields which was not " - "well-appreciated at the " - "time that DE-1/2 " - "magnetometers were " - "designed and calibrated in" - " the late 1970's. As " - "discussed by Luhr et al. " - "(1995) in regards to the " - "magnetometer on the low " - "altitude, spin stabilized " - "Freja spacecraft, this " - "non-linear effect can " - "easily produce the " - "residual spin frequency " - "signals present in the " - "MAG-A data set. " } 8: CDF_CHAR { "The MLT and ILAT " - "algorithms were supplied " - "by M. Sugiura (PI for the " - "Magnetometer " - "Investigation) prior to " - "launch and used in the " - "generation of the " - "Orbit-Attitude database." } . "ADID_ref" 1: CDF_CHAR { "NSSD0241" } . "Logical_source" 1: CDF_CHAR { "de1_6sec_magagms" } . "Logical_file_id" 1: CDF_CHAR { "de1_6sec_magagms_00000000_" - "v01" } . "Logical_source_description" 1: CDF_CHAR { "DE-1 Magnetometer (MAG-A) " - "6 second GMS Data" } . "PI_name" 1: CDF_CHAR { "Dr. Masahisa Sugiura" } . "PI_affiliation" 1: CDF_CHAR { "NASA/GSFC" } . "NSSDC_id" 1: CDF_CHAR { "SPMS-00565" } . "Mission_group" 1: CDF_CHAR { "Dynamics Explorer" } 2: CDF_UCHAR { "!___Magnetospheric Data" } 3: CDF_UCHAR { "!___ITM Data including " - "Earth Imaging and " - "Ground-Based" } . "Instrument_type" 1: CDF_CHAR { "Particles (space)" } . "spase_DatasetResourceID" 1: CDF_CHAR { "spase://NASA/NumericalData" - "/DE1/MAGA/PT6S" } . #VARIABLEattributes "FIELDNAM" "VALIDMIN" "VALIDMAX" "SCALEMIN" "SCALEMAX" "UNITS" "FORMAT" "MONOTON" "FILLVAL" "CATDESC" "VAR_TYPE" "DICT_KEY" "UNIT_PTR" "LABL_PTR_1" "LABL_PTR_2" "FORM_PTR" "LABLAXIS" "DELTA_PLUS_VAR" "DELTA_MINUS_VAR" "DEPEND_0" "DEPEND_1" "DEPEND_2" "AVG_TYPE" "DISPLAY_TYPE" "VAR_NOTES" "SCALETYP" #variables ! No rVariables. #zVariables ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "Epoch" CDF_EPOCH 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: 01-Jan-0000 00:00:00.000 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "Time since 0 A.D.(vefi)" } "VALIDMIN" CDF_EPOCH { 15-Sep-1981 00:00:00.000 } "VALIDMAX" CDF_EPOCH { 18-Feb-1991 23:59:59.999 } "SCALEMIN" CDF_EPOCH { 16-Sep-1981 05:00:00.000 } "SCALEMAX" CDF_EPOCH { 18-Feb-1991 10:00:00.000 } "UNITS" CDF_CHAR { "ms (UT) " } "FORMAT" CDF_CHAR { "F14.0 " } "MONOTON" CDF_CHAR { "INCREASE" } "FILLVAL" CDF_REAL8 { -1.0e+31 } "CATDESC" CDF_CHAR { "NSSDC standard-reference time value. " - "(vefi)" } "VAR_TYPE" CDF_CHAR { "support_data" } "AVG_TYPE" CDF_CHAR { "standard" } "DISPLAY_TYPE" CDF_CHAR { "time_series" } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "brGEO" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "Br-Model (GEO)" } "VALIDMIN" CDF_REAL4 { -10000000.00 } "VALIDMAX" CDF_REAL4 { 10000000.00 } "UNITS" CDF_CHAR { "nT " } "FORMAT" CDF_CHAR { "f9.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Radial-Component of reference magnetic" - " field (MAGSAT model) in GEO coord." } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Br-Model(GEO)" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "bthGEO" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "Bth-Model (GEO)" } "VALIDMIN" CDF_REAL4 { -10000000.00 } "VALIDMAX" CDF_REAL4 { 10000000.00 } "UNITS" CDF_CHAR { "nT " } "FORMAT" CDF_CHAR { "f9.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Theta-Component ..." } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Bth-Model(GEO)" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "bphGEO" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "Bph-Model (GEO)" } "VALIDMIN" CDF_REAL4 { -10000000.00 } "VALIDMAX" CDF_REAL4 { 10000000.00 } "UNITS" CDF_CHAR { "nT " } "FORMAT" CDF_CHAR { "f9.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Phi-Component ..." } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Bph-Model(GEO)" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "bpara" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "B_para-Diff (LMG)" } "VALIDMIN" CDF_REAL4 { -10000000.00 } "VALIDMAX" CDF_REAL4 { 10000000.00 } "UNITS" CDF_CHAR { "nT " } "FORMAT" CDF_CHAR { "f9.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Parallel Component of Difference " - "Magnetic Field in Local Magnetic (LMG)" - " Coord." } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Bpara-Diff(LMG)" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "bparp1" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "B_perp1-Diff (LMG)" } "VALIDMIN" CDF_REAL4 { -10000000.00 } "VALIDMAX" CDF_REAL4 { 10000000.00 } "UNITS" CDF_CHAR { "nT " } "FORMAT" CDF_CHAR { "f9.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Perpendicular(1) Component ..." } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Bperp1-Diff(LMG)" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "bparp2" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "B_perp2-Diff (LMG)" } "VALIDMIN" CDF_REAL4 { -10000000.00 } "VALIDMAX" CDF_REAL4 { 10000000.00 } "UNITS" CDF_CHAR { "nT " } "FORMAT" CDF_CHAR { "f9.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Perpendicular(2) Component ..." } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Bperp2-Diff(LMG)" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "brGMS" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "Br-Diff (GMS)" } "VALIDMIN" CDF_REAL4 { -10000000.00 } "VALIDMAX" CDF_REAL4 { 10000000.00 } "UNITS" CDF_CHAR { "nT " } "FORMAT" CDF_CHAR { "f9.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Radial-Component of Difference " - "Magnetic Field in GMS coord." } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Br-Diff(GMS)" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "bthGMS" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "Bth-Diff (GMS)" } "VALIDMIN" CDF_REAL4 { -10000000.00 } "VALIDMAX" CDF_REAL4 { 10000000.00 } "UNITS" CDF_CHAR { "nT " } "FORMAT" CDF_CHAR { "f9.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Theta-Component of ..." } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Bth-Diff(GMS)" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "bphGMS" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "Bph-Diff (GMS)" } "VALIDMIN" CDF_REAL4 { -10000000.00 } "VALIDMAX" CDF_REAL4 { 10000000.00 } "UNITS" CDF_CHAR { "nT " } "FORMAT" CDF_CHAR { "f9.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Phi-Component of ..." } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Bph-Diff(GMS)" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "glon" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "Geographic Longitude" } "VALIDMIN" CDF_REAL4 { -180.00 } "VALIDMAX" CDF_REAL4 { 180.00 } "UNITS" CDF_CHAR { "deg" } "FORMAT" CDF_CHAR { "f7.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Geographic Longitude" } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Geo Long" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "glat" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "Geographic Latitude" } "VALIDMIN" CDF_REAL4 { -90.00 } "VALIDMAX" CDF_REAL4 { 90.00 } "UNITS" CDF_CHAR { "deg" } "FORMAT" CDF_CHAR { "f6.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Geographic Latitude" } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Geo Lati" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "ilat" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "Invariant Latitude" } "VALIDMIN" CDF_REAL4 { -90.00 } "VALIDMAX" CDF_REAL4 { 90.00 } "UNITS" CDF_CHAR { "deg" } "FORMAT" CDF_CHAR { "f6.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Invariant Latitude" } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Inv Lat" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } "VAR_NOTES" CDF_CHAR { "The MLT and ILAT algorithms were " - "supplied by M. Sugiura (PI for the " - "Magnetometer Investigation) prior to " - "launch and used in the generation of " - "the Orbit-Attitude database." } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "mlt" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "Mag. Local Time" } "VALIDMIN" CDF_REAL4 { 0.00 } "VALIDMAX" CDF_REAL4 { 24.00 } "UNITS" CDF_CHAR { "hr" } "FORMAT" CDF_CHAR { "f5.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Magnetic Local Time" } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "MLT" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } "VAR_NOTES" CDF_CHAR { "The MLT and ILAT algorithms were " - "supplied by M. Sugiura (PI for the " - "Magnetometer Investigation) prior to " - "launch and used in the generation of " - "the Orbit-Attitude database." } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "alt" CDF_REAL4 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -1.0e+30 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "Altitude" } "VALIDMIN" CDF_REAL4 { 0.00 } "VALIDMAX" CDF_REAL4 { 1000000.00 } "UNITS" CDF_CHAR { "km" } "FORMAT" CDF_CHAR { "f7.2" } "FILLVAL" CDF_REAL4 { -0.00 } "CATDESC" CDF_CHAR { "Altitude in km" } "VAR_TYPE" CDF_CHAR { "data" } "LABLAXIS" CDF_CHAR { "Altitude" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. ! Variable Data Number Record Dimension ! Name Type Elements Dims Sizes Variance Variances ! -------- ---- -------- ---- ----- -------- --------- "flag" CDF_INT2 1 0 T ! VAR_COMPRESSION: None ! (Valid compression: None, GZIP.1-9, RLE.0, HUFF.0, AHUFF.0) ! VAR_SPARSERECORDS: None ! (Valid sparserecords: None, sRecords.PAD, sRecords.PREV) ! VAR_PADVALUE: -32767 ! Attribute Data ! Name Type Value ! -------- ---- ----- "FIELDNAM" CDF_CHAR { "error code" } "VALIDMIN" CDF_INT2 { 0 } "VALIDMAX" CDF_INT2 { 99 } "UNITS" CDF_CHAR { " " } "FORMAT" CDF_CHAR { "i2" } "FILLVAL" CDF_INT2 { -1 } "CATDESC" CDF_CHAR { "error code ( =0 : no error in data " - "reduction)" } "VAR_TYPE" CDF_CHAR { "support_data" } "LABLAXIS" CDF_CHAR { "error code" } "DEPEND_0" CDF_CHAR { "Epoch" } "DISPLAY_TYPE" CDF_CHAR { "time_series " } . ! RV values were not requested. #end