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Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"LABL_PTR_1":"FEDU_LABL_ENERGY"},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ele"},{"LABL_PTR_2":"FEDU_LABL_ANGLE"},{"VIRTUAL":"true"},{"FUNCT":"apply_esa_qflag"},{"COMPONENT_0":"FEDU"},{"COMPONENT_1":"Mode_Ele"}]}]},{"FEDU_LABL_ENERGY":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":22},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"                      "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Energy channels"},{"FIELDNAM":"FEDU_LABL_ENERGY"},{"FORMAT":"A22"},{"LABLAXIS":"FEDU Energy"},{"VAR_TYPE":"metadata"}]},{"VarData":["FEDU_Flux_E01/~15eV   ","FEDU_Flux_E02/~17eV   ","FEDU_Flux_E03/~19eV   ","FEDU_Flux_E04/~21eV   ","FEDU_Flux_E05/~24eV   ","FEDU_Flux_E06/~27eV   ","FEDU_Flux_E07/~30eV   ","FEDU_Flux_E08/~33eV   ","FEDU_Flux_E09/~37eV   ","FEDU_Flux_E10/~42eV   ","FEDU_Flux_E11/~47eV   ","FEDU_Flux_E12/~53eV   ","FEDU_Flux_E13/~59eV   ","FEDU_Flux_E14/~67eV   ","FEDU_Flux_E15/~75eV   ","FEDU_Flux_E16/~84eV   ","FEDU_Flux_E17/~94eV   ","FEDU_Flux_E18/~106eV  ","FEDU_Flux_E19/~118eV  ","FEDU_Flux_E20/~133eV  ","FEDU_Flux_E21/~149eV  ","FEDU_Flux_E22/~167eV  ","FEDU_Flux_E23/~187eV  ","FEDU_Flux_E24/~210eV  ","FEDU_Flux_E25/~236eV  ","FEDU_Flux_E26/~260eV  ","FEDU_Flux_E27/~300eV  ","FEDU_Flux_E28/~330eV  ","FEDU_Flux_E29/~370eV  ","FEDU_Flux_E30/~420eV  ","FEDU_Flux_E31/~470eV  ","FEDU_Flux_E32/~530eV  ","FEDU_Flux_E33/~590eV  ","FEDU_Flux_E34/~660eV  ","FEDU_Flux_E35/~740eV  ","FEDU_Flux_E36/~830eV  ","FEDU_Flux_E37/~930eV  ","FEDU_Flux_E38/~1050eV ","FEDU_Flux_E39/~1170eV ","FEDU_Flux_E40/~1320eV ","FEDU_Flux_E41/~1480eV ","FEDU_Flux_E42/~1660eV ","FEDU_Flux_E43/~1860eV ","FEDU_Flux_E44/~2080eV ","FEDU_Flux_E45/~2340eV ","FEDU_Flux_E46/~2600eV ","FEDU_Flux_E47/~3000eV ","FEDU_Flux_E48/~3300eV ","FEDU_Flux_E49/~3700eV ","FEDU_Flux_E50/~4100eV ","FEDU_Flux_E51/~4700eV ","FEDU_Flux_E52/~5200eV ","FEDU_Flux_E53/~5900eV ","FEDU_Flux_E54/~6600eV ","FEDU_Flux_E55/~7400eV ","FEDU_Flux_E56/~8300eV ","FEDU_Flux_E57/~9300eV ","FEDU_Flux_E58/~10400eV","FEDU_Flux_E59/~11700eV","FEDU_Flux_E60/~13100eV","FEDU_Flux_E61/~14700eV","FEDU_Flux_E62/~16400eV","FEDU_Flux_E63/~18400eV","FEDU_Flux_E64/~20700eV","FEDU_Flux_E65/~23200eV","FEDU_Flux_E66/~26000eV","FEDU_Flux_E67/~30000eV","FEDU_Flux_E68/~33000eV","FEDU_Flux_E69/~37000eV","FEDU_Flux_E70/~41000eV","FEDU_Flux_E71/~46000eV","FEDU_Flux_E72/~52000eV"]}]},{"FEDU_LABL_ANGLE":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":20},{"NumDims":1},{"DimSizes":[11]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"                    "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Pitch angle bin labels for FEDU"},{"DICT_KEY":"label>angle"},{"FIELDNAM":"FEDU_LABL_ANGLE"},{"FORMAT":"A20"},{"VAR_TYPE":"metadata"}]},{"VarData":["FEDU_Flux_4.5degPA  ","FEDU_Flux_18degPA   ","FEDU_Flux_36degPA   ","FEDU_Flux_54degPA   ","FEDU_Flux_72degPA   ","FEDU_Flux_90degPA   ","FEDU_Flux_108degPA  ","FEDU_Flux_126degPA  ","FEDU_Flux_144degPA  ","FEDU_Flux_162degPA  ","FEDU_Flux_175.5degPA"]}]},{"FPDO":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"FPDO: Omnidirectional differential Proton flux ~1-50,000 eV"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_omnidirectional_proton_number"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"FPDO"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FPDO: Proton Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Proton flux integrated (piecewise constant) over pitch angle (11) and gyro angle (20) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"DEPEND_1":"HOPE_ENERGY_Ion"}]}]},{"FPDO_T":[{"VarDescription":[{"DataType":"CDF_DOUBLE"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"CATDESC":"---> (stacked time series; perigees excluded)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_omnidirectional_proton_number"},{"DISPLAY_TYPE":"stack_plot>y=FPDO_T(1),y=FPDO_T(11), y=FPDO_T(21),y=FPDO_T(31),y=FPDO_T(41),y=FPDO_T(51),y=FPDO_T(61), y=FPDO_T(71),z=HOPE_ENERGY_Ion"},{"FIELDNAM":"FPDO"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FPDO: Proton Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Proton flux integrated (piecewise constant) over pitch angle (11) and gyro angle (20) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"LABL_PTR_1":"FPDO_LABL"},{"DEPEND_1":"HOPE_ENERGY_Ion"},{"VIRTUAL":"true"},{"FUNCT":"apply_esa_qflag"},{"COMPONENT_0":"FPDO"},{"COMPONENT_1":"Mode_Ion"}]}]},{"HOPE_ENERGY_Ion":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"---> HOPE_ENERGY_Ion"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"energy>channel_ion"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Energy"},{"FILLVAL":-1.0E+31},{"FORMAT":"E8.2"},{"LABLAXIS":"Energy"},{"SCALEMAX":100000.0},{"SCALEMIN":0.1},{"SCALETYP":"log"},{"UNITS":"eV"},{"VALIDMIN":0.1},{"VALIDMAX":100000.0},{"VAR_TYPE":"support_data"},{"VAR_NOTES":"Energy for Ion measuremnts. Note that HOPE normally measures 72 energy steps; before 9/2013 adjacent channels were combined for downlink.  Those are then expanded on the ground into 72 channels again."},{"DELTA_MINUS_VAR":"ENERGY_Ion_DELTA"},{"DELTA_PLUS_VAR":"ENERGY_Ion_DELTA"},{"LABL_PTR_1":"Energy_LABL_Ion"}]}]},{"FPDO_LABL":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":22},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"                      "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Energy channels"},{"FIELDNAM":"FPDO_LABL_ENERGY"},{"FORMAT":"A22"},{"LABLAXIS":"FPDO Energy"},{"VAR_TYPE":"metadata"}]},{"VarData":["FPDO_Flux_E01/~1.00eV ","FPDO_Flux_E02/~1.20eV ","FPDO_Flux_E03/~1.34eV ","FPDO_Flux_E04/~1.55eV ","FPDO_Flux_E05/~1.83eV ","FPDO_Flux_E06/~2.18eV ","FPDO_Flux_E07/~2.5eV  ","FPDO_Flux_E08/~3.0eV  ","FPDO_Flux_E09/~3.4eV  ","FPDO_Flux_E10/~3.9eV  ","FPDO_Flux_E11/~4.6eV  ","FPDO_Flux_E12/~5.3eV  ","FPDO_Flux_E13/~6.3eV  ","FPDO_Flux_E14/~7.3eV  ","FPDO_Flux_E15/~8.5eV  ","FPDO_Flux_E16/~9.9eV  ","FPDO_Flux_E17/~11.5eV ","FPDO_Flux_E18/~13.4eV ","FPDO_Flux_E19/~15.7eV ","FPDO_Flux_E20/~18.3eV ","FPDO_Flux_E21/~21.2eV ","FPDO_Flux_E22/~24.8eV ","FPDO_Flux_E23/~29eV   ","FPDO_Flux_E24/~34eV   ","FPDO_Flux_E25/~39eV   ","FPDO_Flux_E26/~46eV   ","FPDO_Flux_E27/~53eV   ","FPDO_Flux_E28/~62eV   ","FPDO_Flux_E29/~72eV   ","FPDO_Flux_E30/~84eV   ","FPDO_Flux_E31/~98eV   ","FPDO_Flux_E32/~114eV  ","FPDO_Flux_E33/~133eV  ","FPDO_Flux_E34/~155eV  ","FPDO_Flux_E35/~181eV  ","FPDO_Flux_E36/~211eV  ","FPDO_Flux_E37/~246eV  ","FPDO_Flux_E38/~286eV  ","FPDO_Flux_E39/~330eV  ","FPDO_Flux_E40/~390eV  ","FPDO_Flux_E41/~450eV  ","FPDO_Flux_E42/~530eV  ","FPDO_Flux_E43/~610eV  ","FPDO_Flux_E44/~720eV  ","FPDO_Flux_E45/~830eV  ","FPDO_Flux_E46/~970eV  ","FPDO_Flux_E47/~1130eV ","FPDO_Flux_E48/~1320eV ","FPDO_Flux_E49/~1540eV ","FPDO_Flux_E50/~1790eV ","FPDO_Flux_E51/~2090eV ","FPDO_Flux_E52/~2400eV ","FPDO_Flux_E53/~2800eV ","FPDO_Flux_E54/~3300eV ","FPDO_Flux_E55/~3800eV ","FPDO_Flux_E56/~4500eV ","FPDO_Flux_E57/~5200eV ","FPDO_Flux_E58/~6100eV ","FPDO_Flux_E59/~7100eV ","FPDO_Flux_E60/~8300eV ","FPDO_Flux_E61/~9600eV ","FPDO_Flux_E62/~11200eV","FPDO_Flux_E63/~13100eV","FPDO_Flux_E64/~15200eV","FPDO_Flux_E65/~17800eV","FPDO_Flux_E66/~20700eV","FPDO_Flux_E67/~24000eV","FPDO_Flux_E68/~28000eV","FPDO_Flux_E69/~33000eV","FPDO_Flux_E70/~38000eV","FPDO_Flux_E71/~44000eV","FPDO_Flux_E72/~52000eV"]}]},{"FPDU":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"FPDU: Unidirectional Differential Proton Flux ~1-50,000 eV, in 72 energy and 11 pitch angle bins (energy-angle displays)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_directional_proton_number"},{"DISPLAY_TYPE":"plasmagram>THUMBSIZE>166>symsize=8>x=PITCH_ANGLE_EXT,y=HOPE_ENERGY_Ion,z=FPDU"},{"FIELDNAM":"FPDU"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FPDU: Proton Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Proton flux as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"},{"ALT_CDAWEB_DEPEND_1":"HOPE_ENERGY_Ion"},{"ALT_CDAWEB_DEPEND_2":"PITCH_ANGLE"},{"ALLOW_BIN":"FALSE"}]}]},{"FPDU_byE_atA":[{"VarDescription":[{"DataType":"CDF_DOUBLE"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"CATDESC":"---> Spectrograms by energy at sample pitch angles"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_directional_proton_number"},{"DISPLAY_TYPE":"spectrogram>y=HOPE_ENERGY_Ion, z=FPDU_byE_atA(*,1), z=FPDU_byE_atA(*,2), z=FPDU_byE_atA(*,3), z=FPDU_byE_atA(*,4), z=FPDU_byE_atA(*,5), z=FPDU_byE_atA(*,6), z=FPDU_byE_atA(*,7), z=FPDU_byE_atA(*,8), z=FPDU_byE_atA(*,9),  z=FPDU_byE_atA(*,10), z=FPDU_byE_atA(*,11)"},{"FIELDNAM":"FPDU"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FPDU: Proton Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Proton flux as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"LABL_PTR_1":"FPDU_LABL_ENERGY"},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"},{"LABL_PTR_2":"FPDU_LABL_ANGLE"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"FPDU"}]}]},{"FPDU_byA_atE":[{"VarDescription":[{"DataType":"CDF_DOUBLE"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"CATDESC":"---> Spectrograms by pitch angle at sample energies (perigees excluded)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_directional_proton_number"},{"DISPLAY_TYPE":"spectrogram>y=PITCH_ANGLE,z=FPDU_byA_atE(1,*), z=FPDU_byA_atE(6,*), z=FPDU_byA_atE(11,*),z=FPDU_byA_atE(16,*), z=FPDU_byA_atE(21,*), z=FPDU_byA_atE(26,*), z=FPDU_byA_atE(31,*), z=FPDU_byA_atE(36,*), z=FPDU_byA_atE(41,*), z=FPDU_byA_atE(46,*), z=FPDU_byA_atE(51,*), z=FPDU_byA_atE(56,*), z=FPDU_byA_atE(61,*), z=FPDU_byA_atE(66,*), z=FPDU_byA_atE(72,*)"},{"FIELDNAM":"FPDU"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FPDU: Proton Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Proton flux as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"LABL_PTR_1":"FPDU_LABL_ENERGY"},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"},{"LABL_PTR_2":"FPDU_LABL_ANGLE"},{"VIRTUAL":"true"},{"FUNCT":"apply_esa_qflag"},{"COMPONENT_0":"FPDU"},{"COMPONENT_1":"Mode_Ion"}]}]},{"FPDU_LABL_ENERGY":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":22},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"                      "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Energy channels"},{"FIELDNAM":"FPDU_LABL_ENERGY"},{"FORMAT":"A22"},{"LABLAXIS":"FPDU Energy"},{"VAR_TYPE":"metadata"}]},{"VarData":["FPDU_Flux_E01/~1.00eV ","FPDU_Flux_E02/~1.20eV ","FPDU_Flux_E03/~1.34eV ","FPDU_Flux_E04/~1.55eV ","FPDU_Flux_E05/~1.83eV ","FPDU_Flux_E06/~2.18eV ","FPDU_Flux_E07/~2.5eV  ","FPDU_Flux_E08/~3.0eV  ","FPDU_Flux_E09/~3.4eV  ","FPDU_Flux_E10/~3.9eV  ","FPDU_Flux_E11/~4.6eV  ","FPDU_Flux_E12/~5.3eV  ","FPDU_Flux_E13/~6.3eV  ","FPDU_Flux_E14/~7.3eV  ","FPDU_Flux_E15/~8.5eV  ","FPDU_Flux_E16/~9.9eV  ","FPDU_Flux_E17/~11.5eV ","FPDU_Flux_E18/~13.4eV ","FPDU_Flux_E19/~15.7eV ","FPDU_Flux_E20/~18.3eV ","FPDU_Flux_E21/~21.2eV ","FPDU_Flux_E22/~24.8eV ","FPDU_Flux_E23/~29eV   ","FPDU_Flux_E24/~34eV   ","FPDU_Flux_E25/~39eV   ","FPDU_Flux_E26/~46eV   ","FPDU_Flux_E27/~53eV   ","FPDU_Flux_E28/~62eV   ","FPDU_Flux_E29/~72eV   ","FPDU_Flux_E30/~84eV   ","FPDU_Flux_E31/~98eV   ","FPDU_Flux_E32/~114eV  ","FPDU_Flux_E33/~133eV  ","FPDU_Flux_E34/~155eV  ","FPDU_Flux_E35/~181eV  ","FPDU_Flux_E36/~211eV  ","FPDU_Flux_E37/~246eV  ","FPDU_Flux_E38/~286eV  ","FPDU_Flux_E39/~330eV  ","FPDU_Flux_E40/~390eV  ","FPDU_Flux_E41/~450eV  ","FPDU_Flux_E42/~530eV  ","FPDU_Flux_E43/~610eV  ","FPDU_Flux_E44/~720eV  ","FPDU_Flux_E45/~830eV  ","FPDU_Flux_E46/~970eV  ","FPDU_Flux_E47/~1130eV ","FPDU_Flux_E48/~1320eV ","FPDU_Flux_E49/~1540eV ","FPDU_Flux_E50/~1790eV ","FPDU_Flux_E51/~2090eV ","FPDU_Flux_E52/~2400eV ","FPDU_Flux_E53/~2800eV ","FPDU_Flux_E54/~3300eV ","FPDU_Flux_E55/~3800eV ","FPDU_Flux_E56/~4500eV ","FPDU_Flux_E57/~5200eV ","FPDU_Flux_E58/~6100eV ","FPDU_Flux_E59/~7100eV ","FPDU_Flux_E60/~8300eV ","FPDU_Flux_E61/~9600eV ","FPDU_Flux_E62/~11200eV","FPDU_Flux_E63/~13100eV","FPDU_Flux_E64/~15200eV","FPDU_Flux_E65/~17800eV","FPDU_Flux_E66/~20700eV","FPDU_Flux_E67/~24000eV","FPDU_Flux_E68/~28000eV","FPDU_Flux_E69/~33000eV","FPDU_Flux_E70/~38000eV","FPDU_Flux_E71/~44000eV","FPDU_Flux_E72/~52000eV"]}]},{"FPDU_LABL_ANGLE":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":20},{"NumDims":1},{"DimSizes":[11]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"                    "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Pitch angle bin labels for FPDU"},{"DICT_KEY":"label>angle"},{"FIELDNAM":"FPDU_LABL_ANGLE"},{"FORMAT":"A20"},{"VAR_TYPE":"metadata"}]},{"VarData":["FPDU_Flux_4.5degPA  ","FPDU_Flux_18degPA   ","FPDU_Flux_36degPA   ","FPDU_Flux_54degPA   ","FPDU_Flux_72degPA   ","FPDU_Flux_90degPA   ","FPDU_Flux_108degPA  ","FPDU_Flux_126degPA  ","FPDU_Flux_144degPA  ","FPDU_Flux_162degPA  ","FPDU_Flux_175.5degPA"]}]},{"FODO":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"FODO: Omnidirectional differential Oxygen flux ~1-50,000 eV"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_omnidirectional_oxygen_number"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"FODU"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FODO: Oxygen Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Oxygen flux integrated (piecewise constant) over pitch angle (11) and gyro angle (20) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"DEPEND_1":"HOPE_ENERGY_Ion"}]}]},{"FODO_T":[{"VarDescription":[{"DataType":"CDF_DOUBLE"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"CATDESC":"---> (stacked time series; perigees excluded)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_omnidirectional_oxygen_number"},{"DISPLAY_TYPE":"stack_plot>y=FODO_T(1),y=FODO_T(11), y=FODO_T(21),y=FODO_T(31),y=FODO_T(41),y=FODO_T(51),y=FODO_T(61), y=FODO_T(71),z=HOPE_ENERGY_Ion"},{"FIELDNAM":"FODU"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FODO: Oxygen Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Oxygen flux integrated (piecewise constant) over pitch angle (11) and gyro angle (20) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"LABL_PTR_1":"FODO_LABL"},{"DEPEND_1":"HOPE_ENERGY_Ion"},{"VIRTUAL":"true"},{"FUNCT":"apply_esa_qflag"},{"COMPONENT_0":"FODO"},{"COMPONENT_1":"Mode_Ion"}]}]},{"FODO_LABL":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":22},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"                      "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Energy channels"},{"FIELDNAM":"FODO_LABL_ENERGY"},{"FORMAT":"A22"},{"LABLAXIS":"FODO Energy"},{"VAR_TYPE":"metadata"}]},{"VarData":["FODO_Flux_E01/~1.00eV ","FODO_Flux_E02/~1.20eV ","FODO_Flux_E03/~1.34eV ","FODO_Flux_E04/~1.55eV ","FODO_Flux_E05/~1.83eV ","FODO_Flux_E06/~2.18eV ","FODO_Flux_E07/~2.5eV  ","FODO_Flux_E08/~3.0eV  ","FODO_Flux_E09/~3.4eV  ","FODO_Flux_E10/~3.9eV  ","FODO_Flux_E11/~4.6eV  ","FODO_Flux_E12/~5.3eV  ","FODO_Flux_E13/~6.3eV  ","FODO_Flux_E14/~7.3eV  ","FODO_Flux_E15/~8.5eV  ","FODO_Flux_E16/~9.9eV  ","FODO_Flux_E17/~11.5eV ","FODO_Flux_E18/~13.4eV ","FODO_Flux_E19/~15.7eV ","FODO_Flux_E20/~18.3eV ","FODO_Flux_E21/~21.2eV ","FODO_Flux_E22/~24.8eV ","FODO_Flux_E23/~29eV   ","FODO_Flux_E24/~34eV   ","FODO_Flux_E25/~39eV   ","FODO_Flux_E26/~46eV   ","FODO_Flux_E27/~53eV   ","FODO_Flux_E28/~62eV   ","FODO_Flux_E29/~72eV   ","FODO_Flux_E30/~84eV   ","FODO_Flux_E31/~98eV   ","FODO_Flux_E32/~114eV  ","FODO_Flux_E33/~133eV  ","FODO_Flux_E34/~155eV  ","FODO_Flux_E35/~181eV  ","FODO_Flux_E36/~211eV  ","FODO_Flux_E37/~246eV  ","FODO_Flux_E38/~286eV  ","FODO_Flux_E39/~330eV  ","FODO_Flux_E40/~390eV  ","FODO_Flux_E41/~450eV  ","FODO_Flux_E42/~530eV  ","FODO_Flux_E43/~610eV  ","FODO_Flux_E44/~720eV  ","FODO_Flux_E45/~830eV  ","FODO_Flux_E46/~970eV  ","FODO_Flux_E47/~1130eV ","FODO_Flux_E48/~1320eV ","FODO_Flux_E49/~1540eV ","FODO_Flux_E50/~1790eV ","FODO_Flux_E51/~2090eV ","FODO_Flux_E52/~2400eV ","FODO_Flux_E53/~2800eV ","FODO_Flux_E54/~3300eV ","FODO_Flux_E55/~3800eV ","FODO_Flux_E56/~4500eV ","FODO_Flux_E57/~5200eV ","FODO_Flux_E58/~6100eV ","FODO_Flux_E59/~7100eV ","FODO_Flux_E60/~8300eV ","FODO_Flux_E61/~9600eV ","FODO_Flux_E62/~11200eV","FODO_Flux_E63/~13100eV","FODO_Flux_E64/~15200eV","FODO_Flux_E65/~17800eV","FODO_Flux_E66/~20700eV","FODO_Flux_E67/~24000eV","FODO_Flux_E68/~28000eV","FODO_Flux_E69/~33000eV","FODO_Flux_E70/~38000eV","FODO_Flux_E71/~44000eV","FODO_Flux_E72/~52000eV"]}]},{"FODU":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"FODU: Unidirectional Differential Oxygen Flux ~1-50,000 eV, in 72 energy and 11 pitch angle bins (energy-angle displays)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_directional_oxygen_number"},{"DISPLAY_TYPE":"plasmagram>THUMBSIZE>166>symsize=8>x=PITCH_ANGLE_EXT,y=HOPE_ENERGY_Ion,z=FODU"},{"FIELDNAM":"FODU"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FODU: Oxygen Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Oxygen flux as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"},{"ALT_CDAWEB_DEPEND_1":"HOPE_ENERGY_Ion"},{"ALT_CDAWEB_DEPEND_2":"PITCH_ANGLE"},{"ALLOW_BIN":"FALSE"}]}]},{"FODU_byE_atA":[{"VarDescription":[{"DataType":"CDF_DOUBLE"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"CATDESC":"---> Spectrograms by energy at sample pitch angles"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_directional_Oxygen_number"},{"DISPLAY_TYPE":"spectrogram>y=HOPE_ENERGY_Ion, z=FODU_byE_atA(*,1), z=FODU_byE_atA(*,2), z=FODU_byE_atA(*,3), z=FODU_byE_atA(*,4), z=FODU_byE_atA(*,5), z=FODU_byE_atA(*,6), z=FODU_byE_atA(*,7), z=FODU_byE_atA(*,8), z=FODU_byE_atA(*,9), z=FODU_byE_atA(*,10), z=FODU_byE_atA(*,11)"},{"FIELDNAM":"FODU"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FODU: Oxygen Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Oxygen flux as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"LABL_PTR_1":"FODU_LABL_ENERGY"},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"},{"LABL_PTR_2":"FODU_LABL_ANGLE"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"FODU"}]}]},{"FODU_byA_atE":[{"VarDescription":[{"DataType":"CDF_DOUBLE"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"CATDESC":"---> Spectrograms by pitch angle at sample energies (perigees excluded)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_directional_Oxygen_number"},{"DISPLAY_TYPE":"spectrogram>y=PITCH_ANGLE,z=FODU_byA_atE(1,*), z=FODU_byA_atE(6,*), z=FODU_byA_atE(11,*),z=FODU_byA_atE(16,*), z=FODU_byA_atE(21,*), z=FODU_byA_atE(26,*), z=FODU_byA_atE(31,*), z=FODU_byA_atE(36,*), z=FODU_byA_atE(41,*), z=FODU_byA_atE(46,*), z=FODU_byA_atE(51,*), z=FODU_byA_atE(56,*), z=FODU_byA_atE(61,*), z=FODU_byA_atE(66,*), z=FODU_byA_atE(72,*)"},{"FIELDNAM":"FODU"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FODU: Oxygen Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Oxygen flux as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"LABL_PTR_1":"FODU_LABL_ENERGY"},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"},{"LABL_PTR_2":"FODU_LABL_ANGLE"},{"VIRTUAL":"true"},{"FUNCT":"apply_esa_qflag"},{"COMPONENT_0":"FODU"},{"COMPONENT_1":"Mode_Ion"}]}]},{"FODU_LABL_ENERGY":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":22},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"                      "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Energy channels"},{"FIELDNAM":"FODU_LABL_ENERGY"},{"FORMAT":"A22"},{"LABLAXIS":"FODU Energy"},{"VAR_TYPE":"metadata"}]},{"VarData":["FODU_Flux_E01/~1.00eV ","FODU_Flux_E02/~1.20eV ","FODU_Flux_E03/~1.34eV ","FODU_Flux_E04/~1.55eV ","FODU_Flux_E05/~1.83eV ","FODU_Flux_E06/~2.18eV ","FODU_Flux_E07/~2.5eV  ","FODU_Flux_E08/~3.0eV  ","FODU_Flux_E09/~3.4eV  ","FODU_Flux_E10/~3.9eV  ","FODU_Flux_E11/~4.6eV  ","FODU_Flux_E12/~5.3eV  ","FODU_Flux_E13/~6.3eV  ","FODU_Flux_E14/~7.3eV  ","FODU_Flux_E15/~8.5eV  ","FODU_Flux_E16/~9.9eV  ","FODU_Flux_E17/~11.5eV ","FODU_Flux_E18/~13.4eV ","FODU_Flux_E19/~15.7eV ","FODU_Flux_E20/~18.3eV ","FODU_Flux_E21/~21.2eV ","FODU_Flux_E22/~24.8eV ","FODU_Flux_E23/~29eV   ","FODU_Flux_E24/~34eV   ","FODU_Flux_E25/~39eV   ","FODU_Flux_E26/~46eV   ","FODU_Flux_E27/~53eV   ","FODU_Flux_E28/~62eV   ","FODU_Flux_E29/~72eV   ","FODU_Flux_E30/~84eV   ","FODU_Flux_E31/~98eV   ","FODU_Flux_E32/~114eV  ","FODU_Flux_E33/~133eV  ","FODU_Flux_E34/~155eV  ","FODU_Flux_E35/~181eV  ","FODU_Flux_E36/~211eV  ","FODU_Flux_E37/~246eV  ","FODU_Flux_E38/~286eV  ","FODU_Flux_E39/~330eV  ","FODU_Flux_E40/~390eV  ","FODU_Flux_E41/~450eV  ","FODU_Flux_E42/~530eV  ","FODU_Flux_E43/~610eV  ","FODU_Flux_E44/~720eV  ","FODU_Flux_E45/~830eV  ","FODU_Flux_E46/~970eV  ","FODU_Flux_E47/~1130eV ","FODU_Flux_E48/~1320eV ","FODU_Flux_E49/~1540eV ","FODU_Flux_E50/~1790eV ","FODU_Flux_E51/~2090eV ","FODU_Flux_E52/~2400eV ","FODU_Flux_E53/~2800eV ","FODU_Flux_E54/~3300eV ","FODU_Flux_E55/~3800eV ","FODU_Flux_E56/~4500eV ","FODU_Flux_E57/~5200eV ","FODU_Flux_E58/~6100eV ","FODU_Flux_E59/~7100eV ","FODU_Flux_E60/~8300eV ","FODU_Flux_E61/~9600eV ","FODU_Flux_E62/~11200eV","FODU_Flux_E63/~13100eV","FODU_Flux_E64/~15200eV","FODU_Flux_E65/~17800eV","FODU_Flux_E66/~20700eV","FODU_Flux_E67/~24000eV","FODU_Flux_E68/~28000eV","FODU_Flux_E69/~33000eV","FODU_Flux_E70/~38000eV","FODU_Flux_E71/~44000eV","FODU_Flux_E72/~52000eV"]}]},{"FODU_LABL_ANGLE":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":20},{"NumDims":1},{"DimSizes":[11]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"                    "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Pitch angle bin labels for FODU"},{"DICT_KEY":"label>angle"},{"FIELDNAM":"FODU_LABL_ANGLE"},{"FORMAT":"A20"},{"VAR_TYPE":"metadata"}]},{"VarData":["FODU_Flux_4.5degPA  ","FODU_Flux_18degPA   ","FODU_Flux_36degPA   ","FODU_Flux_54degPA   ","FODU_Flux_72degPA   ","FODU_Flux_90degPA   ","FODU_Flux_108degPA  ","FODU_Flux_126degPA  ","FODU_Flux_144degPA  ","FODU_Flux_162degPA  ","FODU_Flux_175.5degPA"]}]},{"FHEDO":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"FHEDO: Omnidirectional differential Helium flux ~1-50,000 eV"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_omnidirectional_helium_number"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"FHEDU"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FHEDO: Helium Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Helium flux integrated (piecewise constant) over pitch angle (11) and gyro angle (20) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"DEPEND_1":"HOPE_ENERGY_Ion"}]}]},{"FHEDO_T":[{"VarDescription":[{"DataType":"CDF_DOUBLE"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"CATDESC":"---> (stacked time series; perigees excluded)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_omnidirectional_Ionctron_number"},{"DISPLAY_TYPE":"stack_plot>y=FHEDO_T(1),y=FHEDO_T(11), y=FHEDO_T(21),y=FHEDO_T(31),y=FHEDO_T(41),y=FHEDO_T(51),y=FHEDO_T(61), y=FHEDO_T(71),z=HOPE_ENERGY_Ion"},{"FIELDNAM":"FHEDO"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FHEDO: Helium Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Helium flux integrated (piecewise constant) over pitch angle (11) and gyro angle (20) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"LABL_PTR_1":"FHEDO_LABL"},{"DEPEND_1":"HOPE_ENERGY_Ion"},{"VIRTUAL":"true"},{"FUNCT":"apply_esa_qflag"},{"COMPONENT_0":"FHEDO"},{"COMPONENT_1":"Mode_Ion"}]}]},{"FHEDO_LABL":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":23},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"                       "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Energy channels"},{"FIELDNAM":"FHEDO_LABL_ENERGY"},{"FORMAT":"A23"},{"LABLAXIS":"FHEDO Energy"},{"VAR_TYPE":"metadata"}]},{"VarData":["FHEDO_Flux_E01/~1.00eV ","FHEDO_Flux_E02/~1.20eV ","FHEDO_Flux_E03/~1.34eV ","FHEDO_Flux_E04/~1.55eV ","FHEDO_Flux_E05/~1.83eV ","FHEDO_Flux_E06/~2.18eV ","FHEDO_Flux_E07/~2.5eV  ","FHEDO_Flux_E08/~3.0eV  ","FHEDO_Flux_E09/~3.4eV  ","FHEDO_Flux_E10/~3.9eV  ","FHEDO_Flux_E11/~4.6eV  ","FHEDO_Flux_E12/~5.3eV  ","FHEDO_Flux_E13/~6.3eV  ","FHEDO_Flux_E14/~7.3eV  ","FHEDO_Flux_E15/~8.5eV  ","FHEDO_Flux_E16/~9.9eV  ","FHEDO_Flux_E17/~11.5eV ","FHEDO_Flux_E18/~13.4eV ","FHEDO_Flux_E19/~15.7eV ","FHEDO_Flux_E20/~18.3eV ","FHEDO_Flux_E21/~21.2eV ","FHEDO_Flux_E22/~24.8eV ","FHEDO_Flux_E23/~29eV   ","FHEDO_Flux_E24/~34eV   ","FHEDO_Flux_E25/~39eV   ","FHEDO_Flux_E26/~46eV   ","FHEDO_Flux_E27/~53eV   ","FHEDO_Flux_E28/~62eV   ","FHEDO_Flux_E29/~72eV   ","FHEDO_Flux_E30/~84eV   ","FHEDO_Flux_E31/~98eV   ","FHEDO_Flux_E32/~114eV  ","FHEDO_Flux_E33/~133eV  ","FHEDO_Flux_E34/~155eV  ","FHEDO_Flux_E35/~181eV  ","FHEDO_Flux_E36/~211eV  ","FHEDO_Flux_E37/~246eV  ","FHEDO_Flux_E38/~286eV  ","FHEDO_Flux_E39/~330eV  ","FHEDO_Flux_E40/~390eV  ","FHEDO_Flux_E41/~450eV  ","FHEDO_Flux_E42/~530eV  ","FHEDO_Flux_E43/~610eV  ","FHEDO_Flux_E44/~720eV  ","FHEDO_Flux_E45/~830eV  ","FHEDO_Flux_E46/~970eV  ","FHEDO_Flux_E47/~1130eV ","FHEDO_Flux_E48/~1320eV ","FHEDO_Flux_E49/~1540eV ","FHEDO_Flux_E50/~1790eV ","FHEDO_Flux_E51/~2090eV ","FHEDO_Flux_E52/~2400eV ","FHEDO_Flux_E53/~2800eV ","FHEDO_Flux_E54/~3300eV ","FHEDO_Flux_E55/~3800eV ","FHEDO_Flux_E56/~4500eV ","FHEDO_Flux_E57/~5200eV ","FHEDO_Flux_E58/~6100eV ","FHEDO_Flux_E59/~7100eV ","FHEDO_Flux_E60/~8300eV ","FHEDO_Flux_E61/~9600eV ","FHEDO_Flux_E62/~11200eV","FHEDO_Flux_E63/~13100eV","FHEDO_Flux_E64/~15200eV","FHEDO_Flux_E65/~17800eV","FHEDO_Flux_E66/~20700eV","FHEDO_Flux_E67/~24000eV","FHEDO_Flux_E68/~28000eV","FHEDO_Flux_E69/~33000eV","FHEDO_Flux_E70/~38000eV","FHEDO_Flux_E71/~44000eV","FHEDO_Flux_E72/~52000eV"]}]},{"FHEDU":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"FHEDU: Unidirectional Differential Helium Flux ~1-50,000 keV, in 72 energy and 11 pitch angle bins (energy-angle displays)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_directional_helium_number"},{"DISPLAY_TYPE":"plasmagram>THUMBSIZE>166>symsize=8>x=PITCH_ANGLE_EXT,y=HOPE_ENERGY_Ion,z=FHEDU"},{"FIELDNAM":"FHEDU"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FHEDU: Helium Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Helium flux as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"},{"ALT_CDAWEB_DEPEND_1":"HOPE_ENERGY_Ion"},{"ALT_CDAWEB_DEPEND_2":"PITCH_ANGLE"},{"ALLOW_BIN":"FALSE"}]}]},{"FHEDU_byE_atA":[{"VarDescription":[{"DataType":"CDF_DOUBLE"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"CATDESC":"---> Spectrograms by energy at sample pitch angles"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_directional_Helium_number"},{"DISPLAY_TYPE":"spectrogram>y=HOPE_ENERGY_Ion, z=FHEDU_byE_atA(*,1), z=FHEDU_byE_atA(*,2), z=FHEDU_byE_atA(*,3), z=FHEDU_byE_atA(*,4), z=FHEDU_byE_atA(*,5), z=FHEDU_byE_atA(*,6), z=FHEDU_byE_atA(*,7), z=FHEDU_byE_atA(*,8), z=FHEDU_byE_atA(*,9), z=FHEDU_byE_atA(*,10), z=FHEDU_byE_atA(*,11) "},{"FIELDNAM":"FHEDU"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FHEDU: Helium Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Helium flux as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"LABL_PTR_1":"FHEDU_LABL_ENERGY"},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"},{"LABL_PTR_2":"FHEDU_LABL_ANGLE"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"FHEDU"}]}]},{"FHEDU_byA_atE":[{"VarDescription":[{"DataType":"CDF_DOUBLE"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"CATDESC":"---> Spectrograms by pitch angle at sample energies (perigees excluded)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_directional_Helium_number"},{"DISPLAY_TYPE":"spectrogram>y=PITCH_ANGLE,z=FHEDU_byA_atE(1,*), z=FHEDU_byA_atE(6,*), z=FHEDU_byA_atE(11,*),z=FHEDU_byA_atE(16,*), z=FHEDU_byA_atE(21,*), z=FHEDU_byA_atE(26,*), z=FHEDU_byA_atE(31,*), z=FHEDU_byA_atE(36,*), z=FHEDU_byA_atE(41,*), z=FHEDU_byA_atE(46,*), z=FHEDU_byA_atE(51,*), z=FHEDU_byA_atE(56,*), z=FHEDU_byA_atE(61,*), z=FHEDU_byA_atE(66,*), z=FHEDU_byA_atE(72,*)"},{"FIELDNAM":"FHEDU"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"LABLAXIS":"FHEDU: Helium Flux"},{"SCALEMAX":1.0E+13},{"SCALEMIN":1000.0},{"SCALETYP":"log"},{"UNITS":"s!E-1!Ncm!E-2!Nster!E-1!NkeV!E-1!N"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Helium flux as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"LABL_PTR_1":"FHEDU_LABL_ENERGY"},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"},{"LABL_PTR_2":"FHEDU_LABL_ANGLE"},{"VIRTUAL":"true"},{"FUNCT":"apply_esa_qflag"},{"COMPONENT_0":"FHEDU"},{"COMPONENT_1":"Mode_Ion"}]}]},{"FHEDU_LABL_ENERGY":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":23},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"                       "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Energy channels"},{"FIELDNAM":"FHEDU_LABL_ENERGY"},{"FORMAT":"A23"},{"LABLAXIS":"FHEDU Energy"},{"VAR_TYPE":"metadata"}]},{"VarData":["FHEDU_Flux_E01/~1.00eV ","FHEDU_Flux_E02/~1.20eV ","FHEDU_Flux_E03/~1.34eV ","FHEDU_Flux_E04/~1.55eV ","FHEDU_Flux_E05/~1.83eV ","FHEDU_Flux_E06/~2.18eV ","FHEDU_Flux_E07/~2.5eV  ","FHEDU_Flux_E08/~3.0eV  ","FHEDU_Flux_E09/~3.4eV  ","FHEDU_Flux_E10/~3.9eV  ","FHEDU_Flux_E11/~4.6eV  ","FHEDU_Flux_E12/~5.3eV  ","FHEDU_Flux_E13/~6.3eV  ","FHEDU_Flux_E14/~7.3eV  ","FHEDU_Flux_E15/~8.5eV  ","FHEDU_Flux_E16/~9.9eV  ","FHEDU_Flux_E17/~11.5eV ","FHEDU_Flux_E18/~13.4eV ","FHEDU_Flux_E19/~15.7eV ","FHEDU_Flux_E20/~18.3eV ","FHEDU_Flux_E21/~21.2eV ","FHEDU_Flux_E22/~24.8eV ","FHEDU_Flux_E23/~29eV   ","FHEDU_Flux_E24/~34eV   ","FHEDU_Flux_E25/~39eV   ","FHEDU_Flux_E26/~46eV   ","FHEDU_Flux_E27/~53eV   ","FHEDU_Flux_E28/~62eV   ","FHEDU_Flux_E29/~72eV   ","FHEDU_Flux_E30/~84eV   ","FHEDU_Flux_E31/~98eV   ","FHEDU_Flux_E32/~114eV  ","FHEDU_Flux_E33/~133eV  ","FHEDU_Flux_E34/~155eV  ","FHEDU_Flux_E35/~181eV  ","FHEDU_Flux_E36/~211eV  ","FHEDU_Flux_E37/~246eV  ","FHEDU_Flux_E38/~286eV  ","FHEDU_Flux_E39/~330eV  ","FHEDU_Flux_E40/~390eV  ","FHEDU_Flux_E41/~450eV  ","FHEDU_Flux_E42/~530eV  ","FHEDU_Flux_E43/~610eV  ","FHEDU_Flux_E44/~720eV  ","FHEDU_Flux_E45/~830eV  ","FHEDU_Flux_E46/~970eV  ","FHEDU_Flux_E47/~1130eV ","FHEDU_Flux_E48/~1320eV ","FHEDU_Flux_E49/~1540eV ","FHEDU_Flux_E50/~1790eV ","FHEDU_Flux_E51/~2090eV ","FHEDU_Flux_E52/~2400eV ","FHEDU_Flux_E53/~2800eV ","FHEDU_Flux_E54/~3300eV ","FHEDU_Flux_E55/~3800eV ","FHEDU_Flux_E56/~4500eV ","FHEDU_Flux_E57/~5200eV ","FHEDU_Flux_E58/~6100eV ","FHEDU_Flux_E59/~7100eV ","FHEDU_Flux_E60/~8300eV ","FHEDU_Flux_E61/~9600eV ","FHEDU_Flux_E62/~11200eV","FHEDU_Flux_E63/~13100eV","FHEDU_Flux_E64/~15200eV","FHEDU_Flux_E65/~17800eV","FHEDU_Flux_E66/~20700eV","FHEDU_Flux_E67/~24000eV","FHEDU_Flux_E68/~28000eV","FHEDU_Flux_E69/~33000eV","FHEDU_Flux_E70/~38000eV","FHEDU_Flux_E71/~44000eV","FHEDU_Flux_E72/~52000eV"]}]},{"FHEDU_LABL_ANGLE":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":22},{"NumDims":1},{"DimSizes":[11]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"                      "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Pitch angle bin labels for FHEDU"},{"DICT_KEY":"label>angle"},{"FIELDNAM":"FHEDU_LABL_ANGLE"},{"FORMAT":"A22"},{"VAR_TYPE":"metadata"}]},{"VarData":["FHEDU_Flux_4.5degPA   ","FHEDU_Flux_18degPA    ","FHEDU_Flux_36degPA    ","FHEDU_Flux_54degPA    ","FHEDU_Flux_72degPA    ","FHEDU_Flux_90degPA    ","FHEDU_Flux_108degPA   ","FHEDU_Flux_126degPA   ","FHEDU_Flux_144degPA   ","FHEDU_Flux_162degPA   ","FHEDU_Flux_175.5degPA "]}]},{"FLAGS":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":122},{"NumDims":1},{"DimSizes":[8]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"                                                                                                                          "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Flag type descriptions"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"FLAGS"},{"FORMAT":"A130"},{"VAR_TYPE":"metadata"},{"VAR_NOTES":"Description of each flag."}]},{"VarData":["Count rate issue. 0:at least 10 counts in this sample; 1: 10>counts>=3; 2: 3>counts>=1; 3: flux below the one-count level.","Eclipse. 0: s/c not in eclipse; 1: s/c in eclipse at time of measurement.                                                 ","Reserved                                                                                                                  ","Reserved                                                                                                                  ","Reserved                                                                                                                  ","Reserved                                                                                                                  ","Reserved                                                                                                                  ","Reserved                                                                                                                  "]}]},{"FLAGS_LABL_Ele":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":12},{"NumDims":1},{"DimSizes":[8]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"            "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Electron Flag Labels"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"FLAGS"},{"FORMAT":"A12"},{"VAR_TYPE":"metadata"},{"VAR_NOTES":"Description of each flag."}]},{"VarData":["Elec Ct Rate","Elec Eclipse","Reserved    ","Reserved    ","Reserved    ","Reserved    ","Reserved    ","Reserved    "]}]},{"FLAGS_LABL_Ion":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":11},{"NumDims":1},{"DimSizes":[8]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"           "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"ion Flag Labels"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"FLAGS"},{"FORMAT":"A11"},{"VAR_TYPE":"metadata"},{"VAR_NOTES":"Description of each flag."}]},{"VarData":["Ion Ct Rate","Ion Eclipse","Reserved   ","Reserved   ","Reserved   ","Reserved   ","Reserved   ","Reserved   "]}]},{"Flags_Ele":[{"VarDescription":[{"DataType":"CDF_UINT1"},{"NumElements":1},{"NumDims":1},{"DimSizes":[8]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0}]},{"VarAttributes":[{"CATDESC":"Flags on electron data"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"Flags"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Flags_Ele"},{"FILLVAL":255},{"FORMAT":"I3"},{"LABLAXIS":"Electron flags"},{"SCALETYP":"linear"},{"UNITS":"(0=OK)"},{"VALIDMIN":0},{"VALIDMAX":254},{"VAR_TYPE":"data"},{"VAR_NOTES":"Flags to indicate potential issues with electron data. Each element of this array contains the flag status for a particular concern. A flag value of zero indicates no unusual concerns of that type for that time sample. Increasing flag values indicate increasing concern. See FLAGS variable for a description of each element."},{"LABL_PTR_1":"FLAGS_LABL_Ele"}]}]},{"Flags_Ion":[{"VarDescription":[{"DataType":"CDF_UINT1"},{"NumElements":1},{"NumDims":1},{"DimSizes":[8]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0}]},{"VarAttributes":[{"CATDESC":"---> Flags on ion data"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"Flags"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Flags_Ion"},{"FILLVAL":255},{"FORMAT":"I3"},{"LABLAXIS":"Electron flags"},{"SCALETYP":"linear"},{"UNITS":"(0=OK)"},{"VALIDMIN":0},{"VALIDMAX":254},{"VAR_TYPE":"data"},{"VAR_NOTES":"Flags to indicate potential issues with electron data. Each element of this array contains the flag status for a particular concern. A flag value of zero indicates no unusual concerns of that type for that time sample. Increasing flag values indicate increasing concern. See FLAGS variable for a description of each element."},{"LABL_PTR_1":"FLAGS_LABL_Ion"}]}]},{"Mode_Ele":[{"VarDescription":[{"DataType":"CDF_UINT1"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0}]},{"VarAttributes":[{"CATDESC":"Mode of electron data"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"Flags"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Mode_Ele"},{"FILLVAL":255},{"FORMAT":"I3"},{"LABLAXIS":"Electron mode"},{"SCALETYP":"linear"},{"UNITS":"(0=apogee)"},{"VALIDMIN":0},{"VALIDMAX":2},{"VAR_TYPE":"data"},{"VAR_NOTES":"Indicates instrument mode for electron data. Each mode has a different set of energy channels. See corresponding HOPE_ENERGY_Ion record. (0) Apogee mode: normal operation. (1) Perigee mode: minimum energy channel raised during pass through perigee. (2) burst mode: subset of energies sampled at rapid cadence."}]}]},{"Mode_Ion":[{"VarDescription":[{"DataType":"CDF_UINT1"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0}]},{"VarAttributes":[{"CATDESC":"---> Mode of ion data"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"Flags"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Mode_Ion"},{"FILLVAL":255},{"FORMAT":"I3"},{"LABLAXIS":"Ion mode"},{"SCALETYP":"linear"},{"UNITS":"(0=apogee)"},{"VALIDMIN":0},{"VALIDMAX":1},{"VAR_TYPE":"data"},{"VAR_NOTES":"Indicates instrument mode for ion data. Each mode has a different set of energy channels. See corresponding HOPE_ENERGY_Ion record. (0) Apogee mode: normal operation. (1) Perigee mode: minimum energy channel raised during pass through perigee."}]}]},{"Counts_E_Omni":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"[NO PLOTS] HOPE electron counts OMNI"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"particle_flux>differential_omnidirectional_electron_rate"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"Counts_E"},{"FILLVAL":-1.0E+31},{"FORMAT":"E14.3"},{"LABLAXIS":"e- counts"},{"SCALEMAX":10000.0},{"SCALEMIN":0.1},{"SCALETYP":"log"},{"UNITS":"#"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Electron counts summed over pitch angle (11) and gyro angle (20) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation. Counts are summed over all measurements in a PA/gyro bin."},{"DEPEND_1":"HOPE_ENERGY_Ele"}]}]},{"Counts_E":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"---> HOPE electron counts directional"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"particle_flux>differential_directional_electron_rate"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"Counts_E"},{"FILLVAL":-1.0E+31},{"FORMAT":"E14.3"},{"LABLAXIS":"e- counts"},{"SCALEMAX":10000.0},{"SCALEMIN":0.1},{"SCALETYP":"log"},{"UNITS":"#"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Electron counts as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation. Counts are summed over all measurements in a PA/gyro bin."},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ele"}]}]},{"Counts_P_Omni":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"---> HOPE proton counts OMNI"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_omnidirectional_proton_rate"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"Counts_P"},{"FILLVAL":-1.0E+31},{"FORMAT":"E14.3"},{"LABLAXIS":"p+ counts"},{"SCALEMAX":10000.0},{"SCALEMIN":0.1},{"SCALETYP":"log"},{"UNITS":"#"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Proton counts summed over pitch angle (11) and gyro angle (20) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation. Counts are summed over all measurements in a PA/gyro bin."},{"DEPEND_1":"HOPE_ENERGY_Ion"}]}]},{"Counts_P":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"---> HOPE proton counts directional"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_directional_proton_rate"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"Counts_P"},{"FILLVAL":-1.0E+31},{"FORMAT":"E14.3"},{"LABLAXIS":"p+ counts"},{"SCALEMAX":10000.0},{"SCALEMIN":0.1},{"SCALETYP":"log"},{"UNITS":"#"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Proton counts as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation. Counts are summed over all measurements in a PA/gyro bin."},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"}]}]},{"Counts_He_Omni":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"---> HOPE helium counts OMNI"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_omnidirectional_helium_rate"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"Counts_He"},{"FILLVAL":-1.0E+31},{"FORMAT":"E14.3"},{"LABLAXIS":"He+ counts"},{"SCALEMAX":3000.0},{"SCALEMIN":0.1},{"SCALETYP":"log"},{"UNITS":"#"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Helium counts summed over pitch angle (11) and gyro angle (20) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation. Counts are summed over all measurements in a PA/gyro bin."},{"DEPEND_1":"HOPE_ENERGY_Ion"}]}]},{"Counts_He":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"---> HOPE helium counts directional"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_directional_helium_rate"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"Counts_He"},{"FILLVAL":-1.0E+31},{"FORMAT":"E14.3"},{"LABLAXIS":"He+ counts"},{"SCALEMAX":3000.0},{"SCALEMIN":0.1},{"SCALETYP":"log"},{"UNITS":"#"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Helium counts as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation. Counts are summed over all measurements in a PA/gyro bin."},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"}]}]},{"Counts_O_Omni":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"---> HOPE Oxygen counts OMNI"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_omnidirectional_oxygen_rate"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"Counts_O"},{"FILLVAL":-1.0E+31},{"FORMAT":"E14.3"},{"LABLAXIS":"O+ counts"},{"SCALEMAX":10000.0},{"SCALEMIN":0.1},{"SCALETYP":"log"},{"UNITS":"#"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Oxygen counts summed over pitch angle (11) and gyro angle (20) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation. Counts are summed over all measurements in a PA/gyro bin."},{"DEPEND_1":"HOPE_ENERGY_Ion"}]}]},{"Counts_O":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"---> HOPE Oxygen counts directional"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"particle_flux>differential_directional_oxygen_rate"},{"DISPLAY_TYPE":"spectrogram"},{"FIELDNAM":"Counts_O"},{"FILLVAL":-1.0E+31},{"FORMAT":"E14.3"},{"LABLAXIS":"O+ counts"},{"SCALEMAX":10000.0},{"SCALEMIN":0.1},{"SCALETYP":"log"},{"UNITS":"#"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+16},{"VAR_TYPE":"data"},{"VAR_NOTES":"Oxygen counts as a function of pitch angle (11) as computed from magnetic field direction crossed with spacecraft spin axis and energy (72).  Note that data have been expanded to the highest possible resolution, even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation. Counts are summed over all measurements in a PA/gyro bin."},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"}]}]},{"Ele_SAMPLES_Omni":[{"VarDescription":[{"DataType":"CDF_UINT1"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0}]},{"VarAttributes":[{"CATDESC":"---> No. samples for FEDO"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"number"},{"FIELDNAM":"Ele_SAMPLES"},{"FILLVAL":255},{"FORMAT":"I4"},{"LABLAXIS":"Electron samples"},{"SCALEMAX":30},{"SCALEMIN":0},{"SCALETYP":"linear"},{"VALIDMIN":0},{"VALIDMAX":253},{"VAR_TYPE":"data"},{"VAR_NOTES":"Number of samples used in computing the flux summed over pitch angle.  Note that data have been expanded to the highest possible resolution (16 spin angles, 72 energies), even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"DEPEND_1":"HOPE_ENERGY_Ele"}]}]},{"Ele_SAMPLES":[{"VarDescription":[{"DataType":"CDF_UINT1"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":0}]},{"VarAttributes":[{"CATDESC":"---> No. samples for FEDU"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"number"},{"FIELDNAM":"Ele_SAMPLES"},{"FILLVAL":255},{"FORMAT":"I4"},{"LABLAXIS":"Electron samples"},{"SCALEMAX":30},{"SCALEMIN":0},{"SCALETYP":"linear"},{"VALIDMIN":0},{"VALIDMAX":253},{"VAR_TYPE":"data"},{"VAR_NOTES":"Number of samples used in computing the flux as a function of pitch angle.  Note that data have been expanded to the highest possible resolution (16 spin angles, 72 energies), even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ele"}]}]},{"Ion_SAMPLES_Omni":[{"VarDescription":[{"DataType":"CDF_UINT1"},{"NumElements":1},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0}]},{"VarAttributes":[{"CATDESC":"---> No. samples FIDO"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"number"},{"FIELDNAM":"Ion_Samples"},{"FILLVAL":255},{"FORMAT":"I4"},{"LABLAXIS":"Ion samples"},{"SCALEMAX":30},{"SCALEMIN":0},{"SCALETYP":"linear"},{"VALIDMIN":0},{"VALIDMAX":253},{"VAR_TYPE":"data"},{"VAR_NOTES":"Number of samples used in computing the flux summed over pitch angle.  Note that data have been expanded to the highest possible resolution (16 spin angles, 72 energies), even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"DEPEND_1":"HOPE_ENERGY_Ion"}]}]},{"Ion_SAMPLES":[{"VarDescription":[{"DataType":"CDF_UINT1"},{"NumElements":1},{"NumDims":2},{"DimSizes":[11,72]},{"RecVariance":"VARY"},{"DimVariances":["VARY","VARY"]},{"PadValue":0}]},{"VarAttributes":[{"CATDESC":"---> No. samples FIDU"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"number"},{"FIELDNAM":"Ion_Samples"},{"FILLVAL":255},{"FORMAT":"I4"},{"LABLAXIS":"Ion samples"},{"SCALEMAX":30},{"SCALEMIN":0},{"SCALETYP":"linear"},{"VALIDMIN":0},{"VALIDMAX":253},{"VAR_TYPE":"data"},{"VAR_NOTES":"Number of samples used in computing the flux as a function of pitch angle.  Note that data have been expanded to the highest possible resolution (16 spin angles, 72 energies), even though before 9/2013 the transmitted data are collapsed (36 energies, 4-8-16-8-4 spin angles) to fit the telemetry allocation."},{"DEPEND_1":"PITCH_ANGLE"},{"DEPEND_2":"HOPE_ENERGY_Ion"}]}]},{"B_Calc_Ele":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0.0}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"Model magnetic field strength (electron timebase)"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"magnetic_field>amplitude"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Magnetic field strength"},{"FILLVAL":-1.0E+31},{"FORMAT":"F7.0"},{"LABLAXIS":"B"},{"SCALEMAX":2000.0},{"SCALEMIN":0.0},{"SCALETYP":"linear"},{"SI_conversion":"1.0e-9>T"},{"UNITS":"nT"},{"VALIDMIN":0.0},{"VALIDMAX":99999.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Interpolated to electron measurement timebase from 1 min. resolution MagEphem file. Calculated with LANLGeomag library. Internal field: IGRF. External field: OP77Q."},{"ECTSOC_PRBEM":"B_Calc"}]}]},{"B_Calc_Ion":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0.0}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Model magnetic field strength (ion timebase)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"magnetic_field>amplitude"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Magnetic field strength"},{"FILLVAL":-1.0E+31},{"FORMAT":"F7.0"},{"LABLAXIS":"B"},{"SCALEMAX":2000.0},{"SCALEMIN":0.0},{"SCALETYP":"linear"},{"SI_conversion":"1.0e-9>T"},{"UNITS":"nT"},{"VALIDMIN":0.0},{"VALIDMAX":99999.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Interpolated to ion measurement timebase from 1 min. resolution MagEphem file. Calculated with LANLGeomag library. Internal field: IGRF. External field: OP77Q."},{"ECTSOC_PRBEM":"B_Calc"}]}]},{"B_Eq_Ele":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0.0}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"Model magnetic field strength at magnetic equator (electron timebase)"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"magnetic_field>amplitude"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Equatorial magnetic field strength"},{"FILLVAL":-1.0E+31},{"FORMAT":"F7.0"},{"LABLAXIS":"B Eq."},{"SCALEMAX":2000.0},{"SCALEMIN":0.0},{"SCALETYP":"linear"},{"SI_conversion":"1.0e-9>T"},{"UNITS":"nT"},{"VALIDMIN":0.0},{"VALIDMAX":99999.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Interpolated to electron measurement timebase from 1 min. resolution MagEphem file. Calculated with LANLGeomag library. Internal field: IGRF. External field: OP77Q."},{"ECTSOC_PRBEM":"B_Eq"}]}]},{"B_Eq_Ion":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0.0}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Model magnetic field strength at magnetic equator (ion timebase)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"magnetic_field>amplitude"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Equatorial magnetic field strength"},{"FILLVAL":-1.0E+31},{"FORMAT":"F7.0"},{"LABLAXIS":"B Eq."},{"SCALEMAX":2000.0},{"SCALEMIN":0.0},{"SCALETYP":"linear"},{"SI_conversion":"1.0e-9>T"},{"UNITS":"nT"},{"VALIDMIN":0.0},{"VALIDMAX":99999.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Interpolated to ion measurement timebase from 1 min. resolution MagEphem file. Calculated with LANLGeomag library. Internal field: IGRF. External field: OP77Q."},{"ECTSOC_PRBEM":"B_Eq"}]}]},{"I_Ele":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0.0}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"Adiabatic invariant (bounce) (electron timebase)"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"magnetic_field"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Adiabatic invariant (bounce)"},{"FILLVAL":-1.0E+31},{"FORMAT":"F6.1"},{"LABLAXIS":"I"},{"SCALEMAX":20.0},{"SCALEMIN":0.0},{"SCALETYP":"linear"},{"UNITS":"."},{"VALIDMIN":0.0},{"VALIDMAX":1000.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Interpolated to electron measurement timebase from 1 min. resolution MagEphem file. Calculated with LANLGeomag library. Internal field: IGRF. External field: OP77Q."},{"ECTSOC_PRBEM":"I"}]}]},{"I_Ion":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0.0}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Adiabatic invariant (bounce) (ion timebase)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"magnetic_field"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Adiabatic invariant (bounce)"},{"FILLVAL":-1.0E+31},{"FORMAT":"F6.1"},{"LABLAXIS":"I"},{"SCALEMAX":20.0},{"SCALEMIN":0.0},{"SCALETYP":"linear"},{"UNITS":"."},{"VALIDMIN":0.0},{"VALIDMAX":1000.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Interpolated to ion measurement timebase from 1 min. resolution MagEphem file. Calculated with LANLGeomag library. Internal field: IGRF. External field: OP77Q."},{"ECTSOC_PRBEM":"I"}]}]},{"L_Ele":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0.0}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"Calculated McIlwains L parameter (electron timebase)"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"magnetic_field"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"McIlwains L parameter"},{"FILLVAL":-1.0E+31},{"FORMAT":"F6.1"},{"LABLAXIS":"L"},{"SCALEMAX":8.0},{"SCALEMIN":0.0},{"SCALETYP":"linear"},{"UNITS":"."},{"VALIDMIN":0.0},{"VALIDMAX":1000.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Interpolated to electron measurement timebase from 1 min. resolution MagEphem file. Calculated with LANLGeomag library. Internal field: IGRF. External field: OP77Q."},{"ECTSOC_PRBEM":"L"}]}]},{"L_Ion":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0.0}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Calculated McIlwains L parameter (ion timebase)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"magnetic_field"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"McIlwains L parameter"},{"FILLVAL":-1.0E+31},{"FORMAT":"F6.1"},{"LABLAXIS":"L"},{"SCALEMAX":8.0},{"SCALEMIN":0.0},{"SCALETYP":"linear"},{"UNITS":"."},{"VALIDMIN":0.0},{"VALIDMAX":1000.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Interpolated to ion measurement timebase from 1 min. resolution MagEphem file. Calculated with LANLGeomag library. Internal field: IGRF. External field: OP77Q."},{"ECTSOC_PRBEM":"L"}]}]},{"L_star_Ele":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0.0}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"Calculated Roederers L* parameter (electron timebase)"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"magnetic_field"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Roederers L* parameter"},{"FILLVAL":-1.0E+31},{"FORMAT":"F6.1"},{"LABLAXIS":"L*"},{"SCALEMAX":8.0},{"SCALEMIN":0.0},{"SCALETYP":"linear"},{"UNITS":"."},{"VALIDMIN":0.0},{"VALIDMAX":1000.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Interpolated to electron measurement timebase from 1 min. resolution MagEphem file. Calculated with LANLGeomag library. Internal field: IGRF. External field: OP77Q."},{"ECTSOC_PRBEM":"L_star"}]}]},{"L_star_Ion":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0.0}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Calculated Roederers L* parameter (ion timebase)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"magnetic_field"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Roederers L* parameter"},{"FILLVAL":-1.0E+31},{"FORMAT":"F6.1"},{"LABLAXIS":"L*"},{"SCALEMAX":8.0},{"SCALEMIN":0.0},{"SCALETYP":"linear"},{"UNITS":"."},{"VALIDMIN":0.0},{"VALIDMAX":1000.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Interpolated to ion measurement timebase from 1 min. resolution MagEphem file. Calculated with LANLGeomag library. Internal field: IGRF. External field: OP77Q."},{"ECTSOC_PRBEM":"L_star"}]}]},{"MLT_Ele":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0.0}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"Calculated Magnetic Local Time (electron timebase)"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"time>magnetic"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Magnetic Local Time"},{"FILLVAL":-1.0E+31},{"FORMAT":"F4.1"},{"LABLAXIS":"MLT"},{"SCALEMAX":24.0},{"SCALEMIN":0.0},{"SCALETYP":"linear"},{"SI_conversion":"0.2618>rad"},{"UNITS":"h"},{"VALIDMIN":0.0},{"VALIDMAX":24.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Interpolated to electron measurement timebase from 1 min. resolution MagEphem file. Calculated with LANLGeomag library. Internal field: IGRF. External field: OP77Q."},{"ECTSOC_PRBEM":"MLT"}]}]},{"MLT_Ion":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":0.0}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Calculated Magnetic Local Time (ion timebase)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"time>magnetic"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Magnetic Local Time"},{"FILLVAL":-1.0E+31},{"FORMAT":"F4.1"},{"LABLAXIS":"MLT"},{"SCALEMAX":24.0},{"SCALEMIN":0.0},{"SCALETYP":"linear"},{"SI_conversion":"0.2618>rad"},{"UNITS":"h"},{"VALIDMIN":0.0},{"VALIDMAX":24.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Interpolated to ion measurement timebase from 1 min. resolution MagEphem file. Calculated with LANLGeomag library. Internal field: IGRF. External field: OP77Q."},{"ECTSOC_PRBEM":"MLT"}]}]},{"Position_Ele":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":1},{"DimSizes":[3]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"Position of the satellite in geographic coordinates (electron timebase)"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"position>geographic"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Satellite position (GEO)"},{"FILLVAL":-1.0E+31},{"FORMAT":"F7.0"},{"LABLAXIS":"position"},{"SCALETYP":"linear"},{"UNITS":"km"},{"VALIDMIN":[-63700.0,-63700.0,-63700.0]},{"VALIDMAX":[63700.0,63700.0,63700.0]},{"VAR_TYPE":"data"},{"VAR_NOTES":"Origin = Earths center of mass. X = Intersection of Greenwich meridian and geographic equator. Z = Geographic North Pole. Y = completes a right-handed Cartesian triad. Interpolated to electron measurement timebase from 1 min. resolution MagEphem file."},{"ECTSOC_PRBEM":"Position"},{"LABL_PTR_1":"Position_LABL_1"}]}]},{"Position_Ion":[{"VarDescription":[{"DataType":"CDF_FLOAT"},{"NumElements":1},{"NumDims":1},{"DimSizes":[3]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":0.0}]},{"VarAttributes":[{"CATDESC":"---> Position of the satellite in geographic coordinates (ion timebase)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"position>geographic"},{"DISPLAY_TYPE":"time_series"},{"FIELDNAM":"Satellite position (GEO)"},{"FILLVAL":-1.0E+31},{"FORMAT":"F7.0"},{"LABLAXIS":"position"},{"SCALETYP":"linear"},{"UNITS":"km"},{"VALIDMIN":[-63700.0,-63700.0,-63700.0]},{"VALIDMAX":[63700.0,63700.0,63700.0]},{"VAR_TYPE":"data"},{"VAR_NOTES":"Origin = Earths center of mass. X = Intersection of Greenwich meridian and geographic equator. Z = Geographic North Pole. Y = completes a right-handed Cartesian triad. Interpolated to electron measurement timebase from 1 min. resolution MagEphem file."},{"ECTSOC_PRBEM":"Position"},{"LABL_PTR_1":"Position_LABL_1"}]}]},{"Position_LABL_1":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":4},{"NumDims":1},{"DimSizes":[3]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"    "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Position_LABL_1"},{"DICT_KEY":"label>position"},{"FIELDNAM":"Position_LABL_1"},{"FORMAT":"A4"},{"LABLAXIS":"Position_LABL_1"},{"VAR_TYPE":"metadata"}]},{"VarData":["Xgeo","Ygeo","Zgeo"]}]},{"Position_Ele_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":1},{"DimSizes":[3]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"[Labels on plots] Position of the satellite in geographic coordinates (ele)"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"position>geographic"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"Satellite position (GEO)"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"SCALETYP":"linear"},{"SI_conversion":"1.0e-3>m"},{"UNITS":"km"},{"VALIDMIN":-63700.0},{"VALIDMAX":63700.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Origin = Earths center of mass. X = Intersection of Greenwich meridian and geographic equator. Z = Geographic North Pole. Y = completes a right-handed Cartesian triad"},{"LABL_PTR_1":"Position_Ele_LABL_1"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"Position_Ele"}]}]},{"B_Calc_Ele_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Calculated magnetic field strength (ele)"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"magnetic_field>amplitude"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"Magnetic field strength"},{"FILLVAL":-1.0E+31},{"FORMAT":"E10.3"},{"LABLAXIS":"B_Calc_Ele"},{"SCALETYP":"linear"},{"SI_conversion":"1.0e9>T"},{"UNITS":"nT"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+31},{"VAR_TYPE":"data"},{"VAR_NOTES":"Calculated using ONERA-DESP library Internal field: DGRF/IGRF External field: Olson & Pfitzer quiet"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"B_Calc_Ele"}]}]},{"B_Eq_Ele_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Calculated magnetic field strength at magnetic equator (ele)"},{"DEPEND_0":"Epoch_Ele"},{"DICT_KEY":"magnetic_field>amplitude"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"Equatorial magnetic field strength"},{"FILLVAL":-1.0E+31},{"FORMAT":"E10.3"},{"LABLAXIS":"B_Eq_Ele"},{"SCALETYP":"linear"},{"SI_conversion":"1.0e9>T"},{"UNITS":"nT"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+31},{"VAR_TYPE":"data"},{"VAR_NOTES":"Calculated using ONERA-DESP library Internal field: DGRF/IGRF External field: Olson & Pfitzer quiet"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"B_Eq_Ele"}]}]},{"L_Ele_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Calculated McIlwains L parameter (Earths radii, ele)"},{"DEPEND_0":"Epoch_Ele"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"McIlwains L parameter"},{"FILLVAL":-1.0E+31},{"FORMAT":"E10.3"},{"LABLAXIS":"L_Ele"},{"SCALETYP":"linear"},{"SI_conversion":"1.5696e-7>m"},{"UNITS":"R_E"},{"VALIDMIN":0.0},{"VALIDMAX":20.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Calculated using ONERA-DESP library Internal field: DGRF/IGRF External field: Olson & Pfitzer quiet"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"L_Ele"}]}]},{"L_star_Ele_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Calculated Roederers L* parameter (Earths radii, ele)"},{"DEPEND_0":"Epoch_Ele"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"Roederers L* parameter"},{"FILLVAL":-1.0E+31},{"FORMAT":"E10.3"},{"LABLAXIS":"L*_Ele"},{"SCALETYP":"linear"},{"SI_conversion":"1.5696e-7>m"},{"UNITS":"R_E"},{"VALIDMIN":0.0},{"VALIDMAX":20.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Calculated using ONERA-DESP library Internal field: DGRF/IGRF External field: Olson & Pfitzer quiet"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"L_star_Ele"}]}]},{"I_Ele_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Adiabatic invariant (bounce, ele)"},{"DEPEND_0":"Epoch_Ele"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"Adiabatic invariant (bounce)"},{"FILLVAL":-1.0E+31},{"FORMAT":"E10.3"},{"LABLAXIS":"I_Ele"},{"SCALETYP":"linear"},{"SI_conversion":"none"},{"UNITS":"none"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+31},{"VAR_TYPE":"data"},{"VAR_NOTES":"Calculated using ONERA-DESP library Internal field: DGRF/IGRF External field: Olson & Pfitzer quiet"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"I_Ele"}]}]},{"MLT_Ele_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"angle_hour"},{"CATDESC":"---> Calculated Magnetic Local Time (hours, ele)"},{"DEPEND_0":"Epoch_Ele"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"Magnetic Local Time"},{"FILLVAL":-1.0E+31},{"FORMAT":"E10.3"},{"LABLAXIS":"MLT_Ele"},{"SCALETYP":"linear"},{"SI_conversion":"2.778e-4>s"},{"UNITS":"h"},{"VALIDMIN":0.0},{"VALIDMAX":24.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Calculated using ONERA-DESP library Internal field: DGRF/IGRF External field: Olson & Pfitzer quiet"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"MLT_Ele"}]}]},{"Position_Ion_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":1},{"DimSizes":[3]},{"RecVariance":"VARY"},{"DimVariances":["VARY"]},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"[Labels on plots] Position of the satellite in geographic coordinates(ion)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"position>geographic"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"Satellite position (GEO)"},{"FILLVAL":-1.0E+31},{"FORMAT":"E12.2"},{"SCALETYP":"linear"},{"SI_conversion":"1.0e-3>m"},{"UNITS":"km"},{"VALIDMIN":-63700.0},{"VALIDMAX":63700.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Origin = Earths center of mass. X = Intersection of Greenwich meridian and geographic equator. Z = Geographic North Pole. Y = completes a right-handed Cartesian triad"},{"LABL_PTR_1":"Position_Ion_LABL_1"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"Position_Ion"}]}]},{"B_Calc_Ion_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Calculated magnetic field strength (ion)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"magnetic_field>amplitude"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"Magnetic field strength"},{"FILLVAL":-1.0E+31},{"FORMAT":"E10.3"},{"LABLAXIS":"B_Calc_Ion"},{"SCALETYP":"linear"},{"SI_conversion":"1.0e9>T"},{"UNITS":"nT"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+31},{"VAR_TYPE":"data"},{"VAR_NOTES":"Calculated using ONERA-DESP library Internal field: DGRF/IGRF External field: Olson & Pfitzer quiet"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"B_Calc_Ion"}]}]},{"B_Eq_Ion_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Calculated magnetic field strength at magnetic equator(ion)"},{"DEPEND_0":"Epoch_Ion"},{"DICT_KEY":"magnetic_field>amplitude"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"Equatorial magnetic field strength"},{"FILLVAL":-1.0E+31},{"FORMAT":"E10.3"},{"LABLAXIS":"B_Eq_Ion"},{"SCALETYP":"linear"},{"SI_conversion":"1.0e9>T"},{"UNITS":"nT"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+31},{"VAR_TYPE":"data"},{"VAR_NOTES":"Calculated using ONERA-DESP library Internal field: DGRF/IGRF External field: Olson & Pfitzer quiet"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"B_Eq_Ion"}]}]},{"L_Ion_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Calculated McIlwains L parameter (Earths radii, ion)"},{"DEPEND_0":"Epoch_Ion"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"McIlwains L parameter"},{"FILLVAL":-1.0E+31},{"FORMAT":"E10.3"},{"LABLAXIS":"L_Ion"},{"SCALETYP":"linear"},{"SI_conversion":"1.5696e-7>m"},{"UNITS":"R_E"},{"VALIDMIN":0.0},{"VALIDMAX":20.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Calculated using ONERA-DESP library Internal field: DGRF/IGRF External field: Olson & Pfitzer quiet"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"L_Ion"}]}]},{"L_star_Ion_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Calculated Roederers L* parameter (Earths radii, ion)"},{"DEPEND_0":"Epoch_Ion"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"Roederers L* parameter"},{"FILLVAL":-1.0E+31},{"FORMAT":"E10.3"},{"LABLAXIS":"L*_Ion"},{"SCALETYP":"linear"},{"SI_conversion":"1.5696e-7>m"},{"UNITS":"R_E"},{"VALIDMIN":0.0},{"VALIDMAX":20.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Calculated using ONERA-DESP library Internal field: DGRF/IGRF External field: Olson & Pfitzer quiet"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"L_star_Ion"}]}]},{"I_Ion_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"standard"},{"CATDESC":"---> Adiabatic invariant (bounce, ion)"},{"DEPEND_0":"Epoch_Ion"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"Adiabatic invariant (bounce)"},{"FILLVAL":-1.0E+31},{"FORMAT":"E10.3"},{"LABLAXIS":"I_Ion"},{"SCALETYP":"linear"},{"SI_conversion":"none"},{"UNITS":"none"},{"VALIDMIN":0.0},{"VALIDMAX":1.0E+31},{"VAR_TYPE":"data"},{"VAR_NOTES":"Calculated using ONERA-DESP library Internal field: DGRF/IGRF External field: Olson & Pfitzer quiet"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"I_Ion"}]}]},{"MLT_Ion_TT":[{"VarDescription":[{"DataType":"CDF_REAL4"},{"NumElements":1},{"NumDims":0},{"RecVariance":"VARY"},{"PadValue":-1.0E+30}]},{"VarAttributes":[{"AVG_TYPE":"angle_hour"},{"CATDESC":"---> Calculated Magnetic Local Time (hours, ion)"},{"DEPEND_0":"Epoch_Ion"},{"DISPLAY_TYPE":"time_text"},{"FIELDNAM":"Magnetic Local Time"},{"FILLVAL":-1.0E+31},{"FORMAT":"E10.3"},{"LABLAXIS":"MLT_Ion"},{"SCALETYP":"linear"},{"SI_conversion":"2.778e-4>s"},{"UNITS":"h"},{"VALIDMIN":0.0},{"VALIDMAX":24.0},{"VAR_TYPE":"data"},{"VAR_NOTES":"Calculated using ONERA-DESP library Internal field: DGRF/IGRF External field: Olson & Pfitzer quiet"},{"VIRTUAL":"true"},{"FUNCT":"alternate_view"},{"COMPONENT_0":"MLT_Ion"}]}]},{"Energy_LABL":[{"VarDescription":[{"DataType":"CDF_CHAR"},{"NumElements":3},{"NumDims":1},{"DimSizes":[72]},{"RecVariance":"NOVARY"},{"DimVariances":["VARY"]},{"NumWrittenRecords":1},{"PadValue":"   "},{"BlockingFactor":1}]},{"VarAttributes":[{"CATDESC":"Energy_LABL"},{"DICT_KEY":"label>energy_channel"},{"FIELDNAM":"Energy_LABL"},{"FORMAT":"A3"},{"LABLAXIS":"Energy_LABL"},{"VAR_TYPE":"metadata"}]},{"VarData":[" E1"," E2"," E3"," E4"," E5"," E6"," E7"," E8"," 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