PDS_VERSION_ID = PDS3 DD_VERSION_ID = PDSCAT1R65 LABEL_REVISION_NOTE = "2022-04-14, Brad Trantham (SwRI), V1.0;" /* FILE CHARACTERISTIC DATA ELEMENTS */ DATA_FORMAT = FITS FILE_NAME = "UVS_SSI_2019360195155_P24_V01.FIT" FILE_RECORDS = 70999 RECORD_BYTES = 2880 /* FITS standard record length */ RECORD_TYPE = FIXED_LENGTH /* DATA OBJECT POINTERS */ ^PHOTON_MAP_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 1) ^PHOTON_MAP_QUBE = ("UVS_SSI_2019360195155_P24_V01.FIT", 3) ^DETECTION_MAP_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 34181) ^DETECTION_MAP_QUBE = ("UVS_SSI_2019360195155_P24_V01.FIT", 34182) ^INTEGRATION_TIME_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 68360) ^INTEGRATION_TIME_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 68361) ^RAYLEIGH_MAP_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 68499) ^RAYLEIGH_MAP_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 68500) ^RATIO_MAP_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 68776) ^RATIO_MAP_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 68777) ^LATITUDE_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 68915) ^LATITUDE_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 68916) ^LONGITUDE_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 69054) ^LONGITUDE_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 69055) ^LATITUDE_NADIR_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 69193) ^LATITUDE_NADIR_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 69194) ^LONGITUDE_NADIR_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 69332) ^LONGITUDE_NADIR_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 69333) ^DISTANCE_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 69471) ^DISTANCE_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 69472) ^EMISSION_ANGLE_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 69748) ^EMISSION_ANGLE_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 69749) ^EMISSION_ANGLE_NADIR_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 69887) ^EMISSION_ANGLE_NADIR_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 69888) ^EPHEMERIS_TIME_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 70026) ^EPHEMERIS_TIME_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 70027) ^PHASE_ANGLE_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 70303) ^PHASE_ANGLE_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 70304) ^PHASE_ANGLE_NADIR_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 70442) ^PHASE_ANGLE_NADIR_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 70443) ^SLIT_MASK_MAP_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 70581) ^SLIT_MASK_MAP_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 70582) ^SOLAR_ANGLE_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 70720) ^SOLAR_ANGLE_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 70721) ^SOLAR_ANGLE_NADIR_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 70859) ^SOLAR_ANGLE_NADIR_IMAGE = ("UVS_SSI_2019360195155_P24_V01.FIT", 70860) ^WAVELENGTH_HEADER = ("UVS_SSI_2019360195155_P24_V01.FIT", 70998) ^WAVELENGTH_TABLE = ("UVS_SSI_2019360195155_P24_V01.FIT", 70999) /* IDENTIFICATION DATA ELEMENTS */ DATA_SET_ID = "JNO-J-UVS-5-DDR-V1.0" INSTRUMENT_HOST_NAME = "JUNO" INSTRUMENT_NAME = "ULTRAVIOLET SPECTROGRAPH" PRODUCT_CREATION_TIME = 2023-05-25T16:50:02 PRODUCT_ID = "UVS_SSI_2019360195155_P24_V01.FIT" PRODUCT_VERSION_ID = "01" STANDARD_DATA_PRODUCT_ID = "UVS_SSI" MD5_CHECKSUM = "d0203fbb2cae49f9dd38282ff7331e47" SPACECRAFT_CLOCK_START_COUNT = "630662215.023" SPACECRAFT_CLOCK_STOP_COUNT = "630662230.023" START_TIME = 2019-12-26T19:51:47 STOP_TIME = 2019-12-26T19:52:02 TARGET_NAME = "JUPITER" /* DESCRIPTIVE DATA ELEMENTS */ DATA_SET_NAME = "JUNO JUPITER UVS 5 DERIVED DATA RECORD V1.0" PROCESSING_LEVEL_ID = "5" INSTRUMENT_ID = "UVS" INSTRUMENT_TYPE = "ULTRAVIOLET SPECTROGRAPH" PRODUCER_FULL_NAME = "BRAD TRANTHAM" PRODUCER_ID = "JUNO_UVS" PRODUCER_INSTITUTION_NAME = "SOUTHWEST RESEARCH INSTITUTE" PRODUCT_TYPE = "SSI" /* Single Spin Image */ SOFTWARE_NAME = "MAPPER" SPACECRAFT_NAME = "JUNO" TARGET_TYPE = "PLANET" /* DATA OBJECT DEFINITIONS */ OBJECT = PHOTON_MAP_HEADER BYTES = 5760 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 2 DESCRIPTION = " FITS header for JUNO UVS resampled (CODMAC Data Level 4) observation." END_OBJECT = PHOTON_MAP_HEADER OBJECT = PHOTON_MAP_QUBE AXES = 3 AXIS_NAME = (SPATIAL, SPATIAL, SPECTRAL) CORE_ITEMS = ( 315 , 315 , 248 ) CORE_ITEM_BYTES = 4 CORE_ITEM_TYPE = IEEE_REAL CORE_BASE = 0.0 CORE_MULTIPLIER = 1.0 SUFFIX_BYTES = 4 SUFFIX_ITEMS = (0,0,0) CORE_VALID_MINIMUM = 0 CORE_NULL = -1 CORE_LOW_INSTR_SATURATION = "N/A" CORE_HIGH_INSTR_SATURATION = "N/A" CORE_LOW_REPR_SATURATION = "N/A" CORE_HIGH_REPR_SATURATION = "N/A" DESCRIPTION = " Calibrated number of photons measured at each spatial/spectral position. [spatial,spatial,spectral] number of photons units=photons/cm-2/sr (if you want to calculate the radiance then you need to divide by the integration time map and by the delta wavelength in each wavelength bin [photons/s/cm-2/sr/nm])" END_OBJECT = PHOTON_MAP_QUBE OBJECT = DETECTION_MAP_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 1, FITS extension name = DETECTION_MAP" END_OBJECT = DETECTION_MAP_HEADER OBJECT = DETECTION_MAP_QUBE AXES = 3 AXIS_NAME = (SPATIAL, SPATIAL, SPECTRAL) CORE_ITEMS = ( 315 , 315 , 248 ) CORE_ITEM_BYTES = 4 CORE_ITEM_TYPE = UNSIGNED_INTEGER CORE_BASE = 0.0 CORE_MULTIPLIER = 1.0 SUFFIX_BYTES = 4 SUFFIX_ITEMS = (0,0,0) CORE_VALID_MINIMUM = 0 CORE_NULL = -1 CORE_LOW_INSTR_SATURATION = "N/A" CORE_HIGH_INSTR_SATURATION = "N/A" CORE_LOW_REPR_SATURATION = "N/A" CORE_HIGH_REPR_SATURATION = "N/A" DESCRIPTION = " Number of detected events at each spatial/spectral position. [spatial,spatial,spectral] measured events" END_OBJECT = DETECTION_MAP_QUBE OBJECT = INTEGRATION_TIME_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 2, FITS extension name = INTEGRATION_TIME" END_OBJECT = INTEGRATION_TIME_HEADER OBJECT = INTEGRATION_TIME_IMAGE SAMPLE_BITS = 32 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Total integration time in seconds within each spatial pixel of the map [spatial,spatial]. Since UVS is an imaging spectrograph the integration time at any given spatial element is the same for all wavelengths." END_OBJECT = INTEGRATION_TIME_IMAGE OBJECT = RAYLEIGH_MAP_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 3, FITS extension name = RAYLEIGH_MAP" END_OBJECT = RAYLEIGH_MAP_HEADER OBJECT = RAYLEIGH_MAP_IMAGE SAMPLE_BITS = 64 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Brightness image (kR) between 155 and 162 nm and then multiplied by 8.1 to scale them to the equivalent total emission from all the H2 Werner and Lyman band emissions [Gerard et al., 2019]" END_OBJECT = RAYLEIGH_MAP_IMAGE OBJECT = RATIO_MAP_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 4, FITS extension name = RATIO_MAP" END_OBJECT = RATIO_MAP_HEADER OBJECT = RATIO_MAP_IMAGE SAMPLE_BITS = 64 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Color ratio map calculated as the radiance in photons/sec/cm2/sr between 125 and 130 nm divided by radiance in photons/sec/cm2/sr between 155 and 162 nm [Greathouse et al., 2021]" END_OBJECT = RATIO_MAP_IMAGE OBJECT = LATITUDE_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 5, FITS extension name = LATITUDE" END_OBJECT = LATITUDE_HEADER OBJECT = LATITUDE_IMAGE SAMPLE_BITS = 32 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Precise planetocentric latitude of Jupiter in degrees as observed by Juno UVS at the ephemeris times of each map pixel. Pixels where Juno UVS did not observe are all set to -999." END_OBJECT = LATITUDE_IMAGE OBJECT = LONGITUDE_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 6, FITS extension name = LONGITUDE" END_OBJECT = LONGITUDE_HEADER OBJECT = LONGITUDE_IMAGE SAMPLE_BITS = 32 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Precise System III west longitude of Jupiter in degrees as observed by Juno UVS at the ephemeris times of each map pixel. Pixels where Juno UVS did not observe are all set to -999." END_OBJECT = LONGITUDE_IMAGE OBJECT = LATITUDE_NADIR_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 7, FITS extension name = LATITUDE_NADIR" END_OBJECT = LATITUDE_NADIR_HEADER OBJECT = LATITUDE_NADIR_IMAGE SAMPLE_BITS = 32 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Planetocentric latitudes of Jupiter in degrees within the entire image area as would have been observed by Juno UVS at the nadir time for the given spin." END_OBJECT = LATITUDE_NADIR_IMAGE OBJECT = LONGITUDE_NADIR_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 8, FITS extension name = LONGITUDE_NADIR" END_OBJECT = LONGITUDE_NADIR_HEADER OBJECT = LONGITUDE_NADIR_IMAGE SAMPLE_BITS = 32 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " System III west longitude of Jupiter in degrees within the entire image area as would have been observed by Juno UVS at the nadir time for the given spin." END_OBJECT = LONGITUDE_NADIR_IMAGE OBJECT = DISTANCE_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 9, FITS extension name = DISTANCE" END_OBJECT = DISTANCE_HEADER OBJECT = DISTANCE_IMAGE SAMPLE_BITS = 64 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Distance in km from Juno UVS to Jupiter measured from the 400 km altitude level (above 1 bar)." END_OBJECT = DISTANCE_IMAGE OBJECT = EMISSION_ANGLE_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 10, FITS extension name = EMISSION_ANGLE" END_OBJECT = EMISSION_ANGLE_HEADER OBJECT = EMISSION_ANGLE_IMAGE SAMPLE_BITS = 32 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Emission angle (angle between Juno UVS/Jupiter vector and surface normal vector) in degrees at the 400 km altitude above the 1 bar level calculated at the precise time of the observation of each position in the map." END_OBJECT = EMISSION_ANGLE_IMAGE OBJECT = EMISSION_ANGLE_NADIR_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 11, FITS extension name = EMISSION_ANGLE_NADIR" END_OBJECT = EMISSION_ANGLE_NADIR_HEADER OBJECT = EMISSION_ANGLE_NADIR_IMAGE SAMPLE_BITS = 32 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Emission angle (angle between Juno UVS/Jupiter vector and surface normal vector) in degrees at the 400 km altitude above the 1 bar level calculated for the entire map at the nadir time." END_OBJECT = EMISSION_ANGLE_NADIR_IMAGE OBJECT = EPHEMERIS_TIME_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 12, FITS extension name = EPHEMERIS_TIME" END_OBJECT = EPHEMERIS_TIME_HEADER OBJECT = EPHEMERIS_TIME_IMAGE SAMPLE_BITS = 64 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Precise ephemeris time in seconds of each measurement in the map." END_OBJECT = EPHEMERIS_TIME_IMAGE OBJECT = PHASE_ANGLE_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 13, FITS extension name = PHASE_ANGLE" END_OBJECT = PHASE_ANGLE_HEADER OBJECT = PHASE_ANGLE_IMAGE SAMPLE_BITS = 32 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " The phase angle in degrees defined by the Juno UVS/Jupiter vector and the Sun/Jupiter vector at the precise time of the observation of each position in the map where UVS observed Jupiter, -999 everywhere else." END_OBJECT = PHASE_ANGLE_IMAGE OBJECT = PHASE_ANGLE_NADIR_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 14, FITS extension name = PHASE_ANGLE_NADIR" END_OBJECT = PHASE_ANGLE_NADIR_HEADER OBJECT = PHASE_ANGLE_NADIR_IMAGE SAMPLE_BITS = 32 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " The phase angle in degrees defined by the Juno UVS/Jupiter vector and the Sun/Jupiter vector at the nadir time for all positions within the map even if it was not observed by Juno UVS. -999 if position does not intersect Jupiter." END_OBJECT = PHASE_ANGLE_NADIR_IMAGE OBJECT = SLIT_MASK_MAP_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 15, FITS extension name = SLIT_MASK_MAP" END_OBJECT = SLIT_MASK_MAP_HEADER OBJECT = SLIT_MASK_MAP_IMAGE SAMPLE_BITS = 32 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Values of 2 correspond to purely wide slit observations, values of 1 correspond to narrow slit only, and a combination of narrow and wide will have a value between 1 and 2. Gaps between narrow and wide slit will have value of 10. Places not observed will equal 0." END_OBJECT = SLIT_MASK_MAP_IMAGE OBJECT = SOLAR_ANGLE_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 16, FITS extension name = SOLAR_ANGLE" END_OBJECT = SOLAR_ANGLE_HEADER OBJECT = SOLAR_ANGLE_IMAGE SAMPLE_BITS = 32 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Solar incidence angle in degrees at the precise time of the observation for each pixel. -999 for any pixel not observed by UVS." END_OBJECT = SOLAR_ANGLE_IMAGE OBJECT = SOLAR_ANGLE_NADIR_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 17, FITS extension name = SOLAR_ANGLE_NADIR" END_OBJECT = SOLAR_ANGLE_NADIR_HEADER OBJECT = SOLAR_ANGLE_NADIR_IMAGE SAMPLE_BITS = 32 SAMPLE_TYPE = IEEE_REAL AXIS_ORDER_TYPE = LAST_INDEX_FASTEST LINE_DISPLAY_DIRECTION = UP SAMPLE_DISPLAY_DIRECTION = RIGHT LINE_SAMPLES = 315 LINES = 315 INTERCHANGE_FORMAT = BINARY OFFSET = 0 SCALING_FACTOR = 1.00000 DESCRIPTION = " Solar incidence angle in degrees at every point in the map where Juno UVS could have measured Jupiter at the nadir time. -999 for any pixel that would not intersect Jupiter." END_OBJECT = SOLAR_ANGLE_NADIR_IMAGE OBJECT = WAVELENGTH_HEADER BYTES = 2880 /* RECORD_BYTES x RECORDS */ HEADER_TYPE = FITS INTERCHANGE_FORMAT = ASCII RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS extension number = 18, FITS extension name = WAVELENGTH" END_OBJECT = WAVELENGTH_HEADER OBJECT = WAVELENGTH_TABLE INTERCHANGE_FORMAT = BINARY ROWS = 248 COLUMNS = 1 ROW_BYTES = 8 OBJECT = COLUMN NAME = "Wavelength" COLUMN_NUMBER = 1 DATA_TYPE = IEEE_REAL START_BYTE = 1 BYTES = 8 DESCRIPTION = " Central wavelength of each spectral bin (nm). Wavelength bin boundaries are half way between each wavelength in this table." END_OBJECT = COLUMN END_OBJECT = WAVELENGTH_TABLE END