Version:2.4.1
NumericalData
ResourceID
spase://NASA/NumericalData/RBSP/A/ECT/HOPE/L3/PitchAngle/Release04/PT11.35S
ResourceHeader
ResourceName
Van Allen Probe A Energetic Particle, Composition, and Thermal Plasma Suite (ECT) Helium Oxygen Proton Electron, HOPE, Mass Spectrometer Pitch Angle resolved Science Data. Electron Fluxes, 15 eV to 50 keV, and Ion Fluxes, 1 eV to 50 keV, as measured in alternate Spin Cadence, Level 3, Release #4 (L3), 11.35 s Data
DOI
https://doi.org/10.48322/17p9-rf75
ReleaseDate
2022-08-18 12:34:56.789
RevisionHistory
RevisionEvent
ReleaseDate
2021-04-27 15:38:11
Note
Only known prior ReleaseDate of the metadata
RevisionEvent
ReleaseDate
2022-08-18 12:34:56.789
Note
Added DOI and PublicationInfo minted by LFB, updated InformationURL URLs as needed, updated the SPDF MetadataContact Person to Robert M. Candey, metadata updated to SPASE 2.4.1, reviewed by LFB 20220818
Description
Van Allen Probe A, Energetic Particle, Composition, and Thermal Plasma Suite, ECT, Helium Oxygen Proton Electron, HOPE, Mass Spectrometer Pitch Angle resolved Science Data. Electron Fluxes from about 15 eV to 50 keV and Ion Fluxes from about 1 eV to 50 keV as measured in alternate Spin Cadence.
Acknowledgement
H.O. Funsten, R. Skoug, R. Friedel. Distribute freely, please acknowledge the original Principal Investigator. Please contact the Principal Investigator before any publication or Presentation of Data.
PublicationInfo
Authors
H.O. Funsten
PublicationDate
2022-01-01 00:00:00
PublishedBy
NASA Space Physics Data Facility
Contacts
InformationURL
Name
Van Allen Probes Home Page, JHU/APL
URL
Description
Van Allen Probes Home Page, Exploring Earth's Radiation Belts and the Extremes of Space Weather, Applied Physics Laboratory, Johns Hopkins University
InformationURL
Name
Van Allen Probes Science Gateway for access to Data, Models, Software and Tools for Researchers, Students and the General Public, JHU/APL
URL
Description
Van Allen Probes Science Gateway for access to Data, Models, Software and Tools for Researchers, Students and the General Public at the Applied Physics Laboratory, Johns Hopkins University
InformationURL
Name
Van Allen Probes Science Gateway, Mission Rules of the Road for Data Usage, JHU/APL
URL
Description
Van Allen Probes Science Gateway, Mission Rules of the Road for Data Usage, Applied Physics Laboratory at the Applied Physics Laboratory, Johns Hopkins University
InformationURL
Name
Van Allen Probes ECT Home Page, UNH
URL
Description
Van Allen Probes Energetic Particle, Composition, and Thermal Plasma Suite, ECT, Home Page at the University of New Hampshire
InformationURL
Name
Van Allen Probes ECT SOC, and Data Services Web Page, LANL
URL
Description
Van Allen Probes Energetic Particle, Composition, and Thermal Plasma Suite, ECT, Science Operations Center, SOC, and Data Services Web Page at the Los Alamos National Laboratory
InformationURL
Name
Van Allen Probes ECT SOC, Data Access Links to HOPE Particle Data, LANL
URL
Description
Van Allen Probes Energetic Particle, Composition, and Thermal Plasma Suite, ECT, Science Operations Center, SOC, Data Access Links to Pitch Angle resolved Helium Oxygen Proton Electron, HOPE, Mass Spectrometer Particle Web Site for access to Magnetic Field Data the Los Alamos National Laboratory
PriorIDs
spase://VSPO/NumericalData/RBSP/A/ECT/HOPE/L3/PitchAngle/Release03/PT11.35S
spase://VSPO/NumericalData/RBSP/A/ECT/HOPE/L3/PitchAngle/Release03/PT60S
spase://VSPO/NumericalData/RBSP/A/ECT/HOPE/SCI-L3/PT60S
spase://VSPO/NumericalData/RBSP/A/ECT/HOPE/L3/PitchAngle/Release04/PT11.35S
AccessInformation
RepositoryID
Availability
Online
AccessRights
Open
AccessURL
Name
FTPS from SPDF (not with most browsers)
URL
Description
Access to Data in CDF Format via ftp from SPDF
AccessURL
Name
HTTPS from SPDF
URL
Description
Access to Data in CDF Format via http from SPDF
AccessURL
Name
CDAWeb
URL
ProductKey
RBSPA_REL04_ECT-HOPE-PA-L3
Description
Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb
Format
CDF
Encoding
None
Acknowledgement
H.O. Funsten, R. Skoug, R. Friedel. Distribute freely, please acknowledge the original Principal Investigator. Please contact the Principal Investigator before any publication or Presentation of Data. Please acknowledge the Data Providers and CDAWeb when using these Data.
AccessInformation
RepositoryID
Availability
Online
AccessRights
Open
AccessURL
Name
CDAWeb HAPI Server
URL
Style
HAPI
ProductKey
RBSPA_REL04_ECT-HOPE-PA-L3@0
ProductKey
RBSPA_REL04_ECT-HOPE-PA-L3@1
Description
Web Service to this product using the HAPI interface.
Format
CSV
Acknowledgement
H.O. Funsten, R. Skoug, R. Friedel. Distribute freely, please acknowledge the original Principal Investigator. Please contact the Principal Investigator before any publication or Presentation of Data. Please acknowledge the Data Providers and CDAWeb when using these Data.
ProcessingLevel
Calibrated
InstrumentIDs
MeasurementType
EnergeticParticles
MeasurementType
MagneticField
MeasurementType
ThermalPlasma
TemporalDescription
TimeSpan
StartDate
2012-10-25 00:00:23.000
StopDate
2019-10-18 16:30:00Z
Cadence
PT11.35S
ObservedRegion
Earth.Magnetosphere
ObservedRegion
Earth.Magnetosphere.Main
ObservedRegion
Earth.Magnetosphere.RadiationBelt
ObservedRegion
Earth.NearSurface.EquatorialRegion
Parameter #1
Name
Electron Energy Range, Delta
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
ENERGY_Ele_DELTA
Description
Electron Energy Range, Delta
Cadence
PT11.35S
Units
eV
UnitsConversion
1.602176565e-19>J
RenderingHints
AxisLabel
Electron Energy Range
ValueFormat
E8.2
ScaleType
LogScale
Structure
Size
72
Element
Name
Element 1
Index
1
Units
eV
Element
Name
Element 2
Index
2
Units
eV
Element
Name
Element 3
Index
3
Units
eV
Element
Name
Element 4
Index
4
Units
eV
Element
Name
Element 5
Index
5
Units
eV
Element
Name
Element 6
Index
6
Units
eV
Element
Name
Element 7
Index
7
Units
eV
Element
Name
Element 8
Index
8
Units
eV
Element
Name
Element 9
Index
9
Units
eV
Element
Name
Element 10
Index
10
Units
eV
Element
Name
Element 11
Index
11
Units
eV
Element
Name
Element 12
Index
12
Units
eV
Element
Name
Element 13
Index
13
Units
eV
Element
Name
Element 14
Index
14
Units
eV
Element
Name
Element 15
Index
15
Units
eV
Element
Name
Element 16
Index
16
Units
eV
Element
Name
Element 17
Index
17
Units
eV
Element
Name
Element 18
Index
18
Units
eV
Element
Name
Element 19
Index
19
Units
eV
Element
Name
Element 20
Index
20
Units
eV
Element
Name
Element 21
Index
21
Units
eV
Element
Name
Element 22
Index
22
Units
eV
Element
Name
Element 23
Index
23
Units
eV
Element
Name
Element 24
Index
24
Units
eV
Element
Name
Element 25
Index
25
Units
eV
Element
Name
Element 26
Index
26
Units
eV
Element
Name
Element 27
Index
27
Units
eV
Element
Name
Element 28
Index
28
Units
eV
Element
Name
Element 29
Index
29
Units
eV
Element
Name
Element 30
Index
30
Units
eV
Element
Name
Element 31
Index
31
Units
eV
Element
Name
Element 32
Index
32
Units
eV
Element
Name
Element 33
Index
33
Units
eV
Element
Name
Element 34
Index
34
Units
eV
Element
Name
Element 35
Index
35
Units
eV
Element
Name
Element 36
Index
36
Units
eV
Element
Name
Element 37
Index
37
Units
eV
Element
Name
Element 38
Index
38
Units
eV
Element
Name
Element 39
Index
39
Units
eV
Element
Name
Element 40
Index
40
Units
eV
Element
Name
Element 41
Index
41
Units
eV
Element
Name
Element 42
Index
42
Units
eV
Element
Name
Element 43
Index
43
Units
eV
Element
Name
Element 44
Index
44
Units
eV
Element
Name
Element 45
Index
45
Units
eV
Element
Name
Element 46
Index
46
Units
eV
Element
Name
Element 47
Index
47
Units
eV
Element
Name
Element 48
Index
48
Units
eV
Element
Name
Element 49
Index
49
Units
eV
Element
Name
Element 50
Index
50
Units
eV
Element
Name
Element 51
Index
51
Units
eV
Element
Name
Element 52
Index
52
Units
eV
Element
Name
Element 53
Index
53
Units
eV
Element
Name
Element 54
Index
54
Units
eV
Element
Name
Element 55
Index
55
Units
eV
Element
Name
Element 56
Index
56
Units
eV
Element
Name
Element 57
Index
57
Units
eV
Element
Name
Element 58
Index
58
Units
eV
Element
Name
Element 59
Index
59
Units
eV
Element
Name
Element 60
Index
60
Units
eV
Element
Name
Element 61
Index
61
Units
eV
Element
Name
Element 62
Index
62
Units
eV
Element
Name
Element 63
Index
63
Units
eV
Element
Name
Element 64
Index
64
Units
eV
Element
Name
Element 65
Index
65
Units
eV
Element
Name
Element 66
Index
66
Units
eV
Element
Name
Element 67
Index
67
Units
eV
Element
Name
Element 68
Index
68
Units
eV
Element
Name
Element 69
Index
69
Units
eV
Element
Name
Element 70
Index
70
Units
eV
Element
Name
Element 71
Index
71
Units
eV
Element
Name
Element 72
Index
72
Units
eV
ValidMin
0.0
ValidMax
60000.0
FillValue
-1.0e+31
Particle
ParticleType
Electron
Qualifier
Array
ParticleQuantity
Energy
Parameter #2
Name
Ion Energy Range, Delta
Set
Time Series defined by using: EPOCH_ION
ParameterKey
ENERGY_Ion_DELTA
Description
Cadence
PT11.35S
Units
eV
UnitsConversion
1.602176565e-19>J
RenderingHints
AxisLabel
Ion Energy Range
ValueFormat
E8.2
ScaleType
LogScale
Structure
ValidMin
0.0
ValidMax
60000.0
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
Energy
Parameter #3
Name
Epoch Time, Electrons
ParameterKey
Epoch_Ele
Description
Epoch Time, Time Base for Electron Measurements
Cadence
PT11.35S
ValidMin
01-Jan-2010 00:00:00.000
ValidMax
31-Dec-2029 23:59:59.999
FillValue
31-Dec-9999 23:59:59.999
Support
Qualifier
Scalar
SupportQuantity
Temporal
Parameter #4
Name
Epoch Time Delta, Electrons
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
Epoch_Ele_DELTA
Description
Epoch Time Delta, Half Electron Sample Time
Caveats
Half of the HOPE Electron Sample Frame Time
Cadence
PT11.35S
Units
ms
UnitsConversion
1.0e-3>s
RenderingHints
AxisLabel
Electron time uncert.
ValueFormat
F6.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
20000.0
FillValue
-1.0e+31
Support
Qualifier
Scalar
SupportQuantity
Temporal
Parameter #5
Name
Epoch Time, Ions
ParameterKey
Epoch_Ion
Description
Epoch Time, Time Base for Ion Measurements
Cadence
PT11.35S
ValidMin
01-Jan-2010 00:00:00.000
ValidMax
31-Dec-2029 23:59:59.999
FillValue
31-Dec-9999 23:59:59.999
Support
Qualifier
Scalar
SupportQuantity
Temporal
Parameter #6
Name
Epoch Time Delta, Ions
Set
Time Series defined by using: EPOCH_ION
ParameterKey
Epoch_Ion_DELTA
Description
Epoch Time Delta, Half Ion Sample Time
Caveats
Half of the HOPE Ion Sample Frame Time
Cadence
PT11.35S
Units
ms
UnitsConversion
1.0e-3>s
RenderingHints
AxisLabel
Ion time uncert.
ValueFormat
F6.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
20000.0
FillValue
-1.0e+31
Support
Qualifier
Scalar
SupportQuantity
Temporal
Parameter #7
Name
Pitch Angle
ParameterKey
PITCH_ANGLE
Description
Pitch Angle, from 0° to 180°
Cadence
PT11.35S
Units
°
UnitsConversion
0.0174532925>rad
RenderingHints
DisplayType
TimeSeries
AxisLabel
Pitch Angle
ValueFormat
E12.3
ScaleMin
0.0
ScaleMax
180.0
ScaleType
LinearScale
Structure
ValidMin
0.0
ValidMax
180.0
FillValue
-1.0e+31
Support
Qualifier
Array
SupportQuantity
Other
Parameter #8
Name
Pitch Angle
ParameterKey
PITCH_ANGLE_EXT
Description
Pitch Angle, from 0° to 180°
Cadence
PT11.35S
Units
°
UnitsConversion
0.0174532925>rad
RenderingHints
DisplayType
TimeSeries
AxisLabel
Pitch Angle
ValueFormat
E12.3
ScaleMin
0.0
ScaleMax
180.0
ScaleType
LinearScale
Structure
ValidMin
0.0
ValidMax
180.0
FillValue
-1.0e+31
Support
Qualifier
Array
SupportQuantity
Other
Parameter #9
Name
HOPE Electron Energy
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
HOPE_ENERGY_Ele
Description
Caveats
Note that the HOPE Instrument normally measures 72 Energy Steps. Before September 2013, adjacent Channels were combined for Downlink. The combined Values were then expanded on the Ground to recover the 72 Channels.
Cadence
PT11.35S
Units
eV
UnitsConversion
1.602176565e-19>J
RenderingHints
DisplayType
TimeSeries
AxisLabel
Energy
ValueFormat
E8.2
ScaleMin
10.0
ScaleMax
100000.0
ScaleType
LogScale
Structure
Size
72
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
ValidMin
1.0
ValidMax
100000.0
FillValue
-1.0e+31
Particle
ParticleType
Electron
Qualifier
Array
ParticleQuantity
Energy
Parameter #10
Name
HOPE Ion Energy
Set
Time Series defined by using: EPOCH_ION
ParameterKey
HOPE_ENERGY_Ion
Description
Caveats
Note that the HOPE Instrument normally measures 72 Energy Steps. Before September 2013, adjacent Channels were combined for Downlink. The combined Values were then expanded on the Ground to recover the 72 Channels.
Cadence
PT11.35S
Units
eV
UnitsConversion
1.602176565e-19>J
RenderingHints
DisplayType
TimeSeries
AxisLabel
Energy
ValueFormat
E8.2
ScaleMin
0.1
ScaleMax
100000.0
ScaleType
LogScale
Structure
Size
72
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
Element
ValidMin
0.1
ValidMax
100000.0
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
Energy
Parameter #11
Name
Electron Differential Flux Intensity, Omnidirectional
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
FEDO
Description
Electron Differential Flux Intensity, Omnidirectional, Energies from ~15 eV to ~50 keV
Caveats
Flux integrated, piecewise constant, over 11 Pitch Angles and 20 Gyro Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and over 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
DisplayType
Spectrogram
AxisLabel
FEDO: Electron Flux
ValueFormat
E12.2
ScaleMin
1000.0
ScaleMax
1.0e+13
ScaleType
LogScale
Structure
ValidMin
0.0
ValidMax
1.0e+16
FillValue
-1.0e+31
Particle
ParticleType
Electron
Qualifier
Array
ParticleQuantity
NumberFlux
Parameter #12
Name
Electron Differential Flux Intensity, Omnidirectional, Time Series Stack Plots
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
FEDO_T
Description
Electron Differential Flux Intensity, Omnidirectional, Time Series Stack Plots, Energies from ~15 eV to ~50 keV, with Perigee Mode excluded
Caveats
Flux integrated, piecewise constant, over 11 Pitch Angles and 20 Gyro Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and over 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. This parameter is virtual. It is calculated by calling the function APPLY_ESA_QFLAG with the following input parameters: FEDO, Mode_Ele.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
AxisLabel
FEDO: Electron Flux
ValueFormat
E12.2
ScaleMin
1000.0
ScaleMax
1.0e+13
ScaleType
LogScale
Structure
Size
72
Element
Name
FEDO_Flux_E01/~15eV
Index
1
Element
Name
FEDO_Flux_E02/~17eV
Index
2
Element
Name
FEDO_Flux_E03/~19eV
Index
3
Element
Name
FEDO_Flux_E04/~21eV
Index
4
Element
Name
FEDO_Flux_E05/~24eV
Index
5
Element
Name
FEDO_Flux_E06/~27eV
Index
6
Element
Name
FEDO_Flux_E07/~30eV
Index
7
Element
Name
FEDO_Flux_E08/~33eV
Index
8
Element
Name
FEDO_Flux_E09/~37eV
Index
9
Element
Name
FEDO_Flux_E10/~42eV
Index
10
Element
Name
FEDO_Flux_E11/~47eV
Index
11
Element
Name
FEDO_Flux_E12/~53eV
Index
12
Element
Name
FEDO_Flux_E13/~59eV
Index
13
Element
Name
FEDO_Flux_E14/~67eV
Index
14
Element
Name
FEDO_Flux_E15/~75eV
Index
15
Element
Name
FEDO_Flux_E16/~84eV
Index
16
Element
Name
FEDO_Flux_E17/~94eV
Index
17
Element
Name
FEDO_Flux_E18/~106eV
Index
18
Element
Name
FEDO_Flux_E19/~118eV
Index
19
Element
Name
FEDO_Flux_E20/~133eV
Index
20
Element
Name
FEDO_Flux_E21/~149eV
Index
21
Element
Name
FEDO_Flux_E22/~167eV
Index
22
Element
Name
FEDO_Flux_E23/~187eV
Index
23
Element
Name
FEDO_Flux_E24/~210eV
Index
24
Element
Name
FEDO_Flux_E25/~236eV
Index
25
Element
Name
FEDO_Flux_E26/~260eV
Index
26
Element
Name
FEDO_Flux_E27/~300eV
Index
27
Element
Name
FEDO_Flux_E28/~330eV
Index
28
Element
Name
FEDO_Flux_E29/~370eV
Index
29
Element
Name
FEDO_Flux_E30/~420eV
Index
30
Element
Name
FEDO_Flux_E31/~470eV
Index
31
Element
Name
FEDO_Flux_E32/~530eV
Index
32
Element
Name
FEDO_Flux_E33/~590eV
Index
33
Element
Name
FEDO_Flux_E34/~660eV
Index
34
Element
Name
FEDO_Flux_E35/~740eV
Index
35
Element
Name
FEDO_Flux_E36/~830eV
Index
36
Element
Name
FEDO_Flux_E37/~930eV
Index
37
Element
Name
FEDO_Flux_E38/~1050eV
Index
38
Element
Name
FEDO_Flux_E39/~1170eV
Index
39
Element
Name
FEDO_Flux_E40/~1320eV
Index
40
Element
Name
FEDO_Flux_E41/~1480eV
Index
41
Element
Name
FEDO_Flux_E42/~1660eV
Index
42
Element
Name
FEDO_Flux_E43/~1860eV
Index
43
Element
Name
FEDO_Flux_E44/~2080eV
Index
44
Element
Name
FEDO_Flux_E45/~2340eV
Index
45
Element
Name
FEDO_Flux_E46/~2600eV
Index
46
Element
Name
FEDO_Flux_E47/~3000eV
Index
47
Element
Name
FEDO_Flux_E48/~3300eV
Index
48
Element
Name
FEDO_Flux_E49/~3700eV
Index
49
Element
Name
FEDO_Flux_E50/~4100eV
Index
50
Element
Name
FEDO_Flux_E51/~4700eV
Index
51
Element
Name
FEDO_Flux_E52/~5200eV
Index
52
Element
Name
FEDO_Flux_E53/~5900eV
Index
53
Element
Name
FEDO_Flux_E54/~6600eV
Index
54
Element
Name
FEDO_Flux_E55/~7400eV
Index
55
Element
Name
FEDO_Flux_E56/~8300eV
Index
56
Element
Name
FEDO_Flux_E57/~9300eV
Index
57
Element
Name
FEDO_Flux_E58/~10400eV
Index
58
Element
Name
FEDO_Flux_E59/~11700eV
Index
59
Element
Name
FEDO_Flux_E60/~13100eV
Index
60
Element
Name
FEDO_Flux_E61/~14700eV
Index
61
Element
Name
FEDO_Flux_E62/~16400eV
Index
62
Element
Name
FEDO_Flux_E63/~18400eV
Index
63
Element
Name
FEDO_Flux_E64/~20700eV
Index
64
Element
Name
FEDO_Flux_E65/~23200eV
Index
65
Element
Name
FEDO_Flux_E66/~26000eV
Index
66
Element
Name
FEDO_Flux_E67/~30000eV
Index
67
Element
Name
FEDO_Flux_E68/~33000eV
Index
68
Element
Name
FEDO_Flux_E69/~37000eV
Index
69
Element
Name
FEDO_Flux_E70/~41000eV
Index
70
Element
Name
FEDO_Flux_E71/~46000eV
Index
71
Element
Name
FEDO_Flux_E72/~52000eV
Index
72
ValidMin
0.0
ValidMax
1.0e+16
FillValue
-1.0e+31
Particle
ParticleType
Electron
Qualifier
Array
ParticleQuantity
NumberFlux
Parameter #13
Name
Electron Differential Flux Intensity, Unidirectional, Energy-Angle Plasmagrams
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
FEDU
Description
Electron Differential Flux Intensity, Unidirectional, Energy-Angle Plasmagrams, Energies from ~15 eV to ~50 keV. Column 1 Labels from PITCH_ANGLE: [ 4.50000, 18.0000, 36.0000, 54.0000, 72.0000, 90.0000, 108.000, 126.000, 144.000, 162.000, 175.500]
Caveats
Electron Flux as a Function of 11 Pitch Angles, as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
AxisLabel
FEDU:Electron Flux
ValueFormat
E12.2
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Electron
Qualifier
Array
ParticleQuantity
NumberFlux
Parameter #14
Name
Electron Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
FEDU_byE_atA
Description
Electron Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Energies from ~15 eV to ~50 keV, Perigee Mode excluded. * Column 1 Labels from PITCH_ANGLE: ["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"]. * Column 2 Labels from HOPE_ENERGY_ELE: ["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"].
Caveats
Electron Flux as a Function of 11 Pitch Angles, as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. This parameter is virtual. It is calculated by calling the function APPLY_ESA_QFLAG with the following input parameters: FEDU, Mode_Ele.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
DisplayType
Spectrogram
AxisLabel
FEDU: Electron Flux
ValueFormat
E12.2
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Electron
Qualifier
Array
ParticleQuantity
NumberFlux
Parameter #15
Name
Electron Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
FEDU_byA_atE
Description
Electron Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Energies from ~15 eV to ~50 keV, Perigee Mode excluded. * Column 1 Labels from PITCH_ANGLE: ["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"]. * Column 2 Labels from HOPE_ENERGY_ELE: ["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"].
Caveats
Electron Flux as a Function of 11 Pitch Angles, as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. This parameter is virtual. It is calculated by calling the function APPLY_ESA_QFLAG with the following input parameters: FEDU, Mode_Ele.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
DisplayType
Spectrogram
AxisLabel
FEDU: Electron Flux
ValueFormat
E12.2
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Electron
Qualifier
Array
ParticleQuantity
NumberFlux
Parameter #16
Name
Proton Differential Flux Intensity, Omnidirectional, Spectrograms
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FPDO
Description
Proton Differential Flux Intensity, Omnidirectional, Spectrograms, Energies from ~1 eV to ~50 keV
Caveats
Flux integrated, piecewise constant, over 11 Pitch Angles and 20 Gyro Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and over 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
DisplayType
Spectrogram
AxisLabel
FPDO: Proton Flux
ValueFormat
E12.2
ScaleMin
1000.0
ScaleMax
1.0e+13
ScaleType
LogScale
Structure
ValidMin
0.0
ValidMax
1.0e+16
FillValue
-1.0e+31
Particle
ParticleType
Proton
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
1
Parameter #17
Name
Proton Differential Flux Intensity, Omnidirectional, Time Series Stack Plots
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FPDO_T
Description
Proton Differential Flux Intensity, Omnidirectional, Time Series Stack Plots, Energies from ~15 eV to ~50 keV, Perigee Mode excluded
Caveats
Flux integrated, piecewise constant, over 11 Pitch Angles and 20 Gyro Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and over 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. This parameter is virtual. It is calculated by calling the function APPLY_ESA_QFLAG with the following input parameters: FPDO, Mode_Ion.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
AxisLabel
FPDO: Proton Flux
ValueFormat
E12.2
ScaleMin
1000.0
ScaleMax
1.0e+13
ScaleType
LogScale
Structure
Size
72
Element
Name
FPDO_Flux_E01/~1.00eV
Index
1
Element
Name
FPDO_Flux_E02/~1.20eV
Index
2
Element
Name
FPDO_Flux_E03/~1.34eV
Index
3
Element
Name
FPDO_Flux_E04/~1.55eV
Index
4
Element
Name
FPDO_Flux_E05/~1.83eV
Index
5
Element
Name
FPDO_Flux_E06/~2.18eV
Index
6
Element
Name
FPDO_Flux_E07/~2.5eV
Index
7
Element
Name
FPDO_Flux_E08/~3.0eV
Index
8
Element
Name
FPDO_Flux_E09/~3.4eV
Index
9
Element
Name
FPDO_Flux_E10/~3.9eV
Index
10
Element
Name
FPDO_Flux_E11/~4.6eV
Index
11
Element
Name
FPDO_Flux_E12/~5.3eV
Index
12
Element
Name
FPDO_Flux_E13/~6.3eV
Index
13
Element
Name
FPDO_Flux_E14/~7.3eV
Index
14
Element
Name
FPDO_Flux_E15/~8.5eV
Index
15
Element
Name
FPDO_Flux_E16/~9.9eV
Index
16
Element
Name
FPDO_Flux_E17/~11.5eV
Index
17
Element
Name
FPDO_Flux_E18/~13.4eV
Index
18
Element
Name
FPDO_Flux_E19/~15.7eV
Index
19
Element
Name
FPDO_Flux_E20/~18.3eV
Index
20
Element
Name
FPDO_Flux_E21/~21.2eV
Index
21
Element
Name
FPDO_Flux_E22/~24.8eV
Index
22
Element
Name
FPDO_Flux_E23/~29eV
Index
23
Element
Name
FPDO_Flux_E24/~34eV
Index
24
Element
Name
FPDO_Flux_E25/~39eV
Index
25
Element
Name
FPDO_Flux_E26/~46eV
Index
26
Element
Name
FPDO_Flux_E27/~53eV
Index
27
Element
Name
FPDO_Flux_E28/~62eV
Index
28
Element
Name
FPDO_Flux_E29/~72eV
Index
29
Element
Name
FPDO_Flux_E30/~84eV
Index
30
Element
Name
FPDO_Flux_E31/~98eV
Index
31
Element
Name
FPDO_Flux_E32/~114eV
Index
32
Element
Name
FPDO_Flux_E33/~133eV
Index
33
Element
Name
FPDO_Flux_E34/~155eV
Index
34
Element
Name
FPDO_Flux_E35/~181eV
Index
35
Element
Name
FPDO_Flux_E36/~211eV
Index
36
Element
Name
FPDO_Flux_E37/~246eV
Index
37
Element
Name
FPDO_Flux_E38/~286eV
Index
38
Element
Name
FPDO_Flux_E39/~330eV
Index
39
Element
Name
FPDO_Flux_E40/~390eV
Index
40
Element
Name
FPDO_Flux_E41/~450eV
Index
41
Element
Name
FPDO_Flux_E42/~530eV
Index
42
Element
Name
FPDO_Flux_E43/~610eV
Index
43
Element
Name
FPDO_Flux_E44/~720eV
Index
44
Element
Name
FPDO_Flux_E45/~830eV
Index
45
Element
Name
FPDO_Flux_E46/~970eV
Index
46
Element
Name
FPDO_Flux_E47/~1130eV
Index
47
Element
Name
FPDO_Flux_E48/~1320eV
Index
48
Element
Name
FPDO_Flux_E49/~1540eV
Index
49
Element
Name
FPDO_Flux_E50/~1790eV
Index
50
Element
Name
FPDO_Flux_E51/~2090eV
Index
51
Element
Name
FPDO_Flux_E52/~2400eV
Index
52
Element
Name
FPDO_Flux_E53/~2800eV
Index
53
Element
Name
FPDO_Flux_E54/~3300eV
Index
54
Element
Name
FPDO_Flux_E55/~3800eV
Index
55
Element
Name
FPDO_Flux_E56/~4500eV
Index
56
Element
Name
FPDO_Flux_E57/~5200eV
Index
57
Element
Name
FPDO_Flux_E58/~6100eV
Index
58
Element
Name
FPDO_Flux_E59/~7100eV
Index
59
Element
Name
FPDO_Flux_E60/~8300eV
Index
60
Element
Name
FPDO_Flux_E61/~9600eV
Index
61
Element
Name
FPDO_Flux_E62/~11200eV
Index
62
Element
Name
FPDO_Flux_E63/~13100eV
Index
63
Element
Name
FPDO_Flux_E64/~15200eV
Index
64
Element
Name
FPDO_Flux_E65/~17800eV
Index
65
Element
Name
FPDO_Flux_E66/~20700eV
Index
66
Element
Name
FPDO_Flux_E67/~24000eV
Index
67
Element
Name
FPDO_Flux_E68/~28000eV
Index
68
Element
Name
FPDO_Flux_E69/~33000eV
Index
69
Element
Name
FPDO_Flux_E70/~38000eV
Index
70
Element
Name
FPDO_Flux_E71/~44000eV
Index
71
Element
Name
FPDO_Flux_E72/~52000eV
Index
72
ValidMin
0.0
ValidMax
1.0e+16
FillValue
-1.0e+31
Particle
ParticleType
Proton
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
1
Parameter #18
Name
Proton Differential Flux Intensity, Unidirectional, Energy-Angle Plasmagrams
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FPDU
Description
Proton Differential Flux Intensity, Unidirectional, Energy-Angle Plasmagrams, Energies from ~1 eV to ~50 keV. Column 1 Labels from PITCH_ANGLE: [ 4.50000, 18.0000, 36.0000, 54.0000, 72.0000, 90.0000, 108.000, 126.000, 144.000, 162.000, 175.500]
Caveats
Proton Flux as a Function of 11 Pitch Angles, as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
AxisLabel
FPDU: Proton Flux
ValueFormat
E12.2
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Proton
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
1
Parameter #19
Name
Proton Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FPDU_byE_atA
Description
Proton Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Energies from ~1 eV to ~50 keV, Perigee Mode excluded. * Column 1 Labels from PITCH_ANGLE: ["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"]. * Column 2 Labels from HOPE_ENERGY_ION: ["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"].
Caveats
Proton Flux as a Function of 11 Pitch Angles, as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FPDU.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
DisplayType
Spectrogram
AxisLabel
FPDU: Proton Flux
ValueFormat
E12.2
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Proton
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
1
Parameter #20
Name
Proton Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FPDU_byA_atE
Description
Proton Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Energies from ~1 eV to ~50 keV, Perigee Mode excluded. * Column 1 Labels from PITCH_ANGLE: ["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"]. * Column 2 Labels from HOPE_ENERGY_ION: ["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"].
Caveats
Proton Flux as a Function of 11 Pitch Angles, as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. This parameter is virtual. It is calculated by calling the function APPLY_ESA_QFLAG with the following input parameters: FPDU, Mode_Ion.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
DisplayType
Spectrogram
AxisLabel
FPDU: Proton Flux
ValueFormat
E12.2
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Proton
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
1
Parameter #21
Name
Oxygen Differential Flux Intensity, Omnidirectional, Spectrograms
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FODO
Description
Oxygen Differential Flux Intensity, Omnidirectional, Spectrograms, Energies from ~1 eV to ~50 keV
Caveats
Flux integrated, piecewise constant, over 11 Pitch Angles and 20 Gyro Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and over 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
DisplayType
Spectrogram
AxisLabel
FODO: Oxygen Flux
ValueFormat
E12.2
ScaleMin
1000.0
ScaleMax
1.0e+13
ScaleType
LogScale
Structure
ValidMin
0.0
ValidMax
1.0e+16
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
8
Parameter #22
Name
Oxygen Differential Flux Intensity, Omnidirectional, Time Series Stack Plots
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FODO_T
Description
Oxygen Differential Flux Intensity, Omnidirectional, Time Series Stack Plots, Energies from ~1 eV to ~50 keV, with Perigee Mode excluded
Caveats
Flux integrated, piecewise constant, over 11 Pitch Angles and 20 Gyro Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and over 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. This parameter is virtual. It is calculated by calling the function APPLY_ESA_QFLAG with the following input parameters: FODO, Mode_Ion.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
AxisLabel
FODO: Oxygen Flux
ValueFormat
E12.2
ScaleMin
1000.0
ScaleMax
1.0e+13
ScaleType
LogScale
Structure
Size
72
Element
Name
FODO_Flux_E01/~1.00eV
Index
1
Element
Name
FODO_Flux_E02/~1.20eV
Index
2
Element
Name
FODO_Flux_E03/~1.34eV
Index
3
Element
Name
FODO_Flux_E04/~1.55eV
Index
4
Element
Name
FODO_Flux_E05/~1.83eV
Index
5
Element
Name
FODO_Flux_E06/~2.18eV
Index
6
Element
Name
FODO_Flux_E07/~2.5eV
Index
7
Element
Name
FODO_Flux_E08/~3.0eV
Index
8
Element
Name
FODO_Flux_E09/~3.4eV
Index
9
Element
Name
FODO_Flux_E10/~3.9eV
Index
10
Element
Name
FODO_Flux_E11/~4.6eV
Index
11
Element
Name
FODO_Flux_E12/~5.3eV
Index
12
Element
Name
FODO_Flux_E13/~6.3eV
Index
13
Element
Name
FODO_Flux_E14/~7.3eV
Index
14
Element
Name
FODO_Flux_E15/~8.5eV
Index
15
Element
Name
FODO_Flux_E16/~9.9eV
Index
16
Element
Name
FODO_Flux_E17/~11.5eV
Index
17
Element
Name
FODO_Flux_E18/~13.4eV
Index
18
Element
Name
FODO_Flux_E19/~15.7eV
Index
19
Element
Name
FODO_Flux_E20/~18.3eV
Index
20
Element
Name
FODO_Flux_E21/~21.2eV
Index
21
Element
Name
FODO_Flux_E22/~24.8eV
Index
22
Element
Name
FODO_Flux_E23/~29eV
Index
23
Element
Name
FODO_Flux_E24/~34eV
Index
24
Element
Name
FODO_Flux_E25/~39eV
Index
25
Element
Name
FODO_Flux_E26/~46eV
Index
26
Element
Name
FODO_Flux_E27/~53eV
Index
27
Element
Name
FODO_Flux_E28/~62eV
Index
28
Element
Name
FODO_Flux_E29/~72eV
Index
29
Element
Name
FODO_Flux_E30/~84eV
Index
30
Element
Name
FODO_Flux_E31/~98eV
Index
31
Element
Name
FODO_Flux_E32/~114eV
Index
32
Element
Name
FODO_Flux_E33/~133eV
Index
33
Element
Name
FODO_Flux_E34/~155eV
Index
34
Element
Name
FODO_Flux_E35/~181eV
Index
35
Element
Name
FODO_Flux_E36/~211eV
Index
36
Element
Name
FODO_Flux_E37/~246eV
Index
37
Element
Name
FODO_Flux_E38/~286eV
Index
38
Element
Name
FODO_Flux_E39/~330eV
Index
39
Element
Name
FODO_Flux_E40/~390eV
Index
40
Element
Name
FODO_Flux_E41/~450eV
Index
41
Element
Name
FODO_Flux_E42/~530eV
Index
42
Element
Name
FODO_Flux_E43/~610eV
Index
43
Element
Name
FODO_Flux_E44/~720eV
Index
44
Element
Name
FODO_Flux_E45/~830eV
Index
45
Element
Name
FODO_Flux_E46/~970eV
Index
46
Element
Name
FODO_Flux_E47/~1130eV
Index
47
Element
Name
FODO_Flux_E48/~1320eV
Index
48
Element
Name
FODO_Flux_E49/~1540eV
Index
49
Element
Name
FODO_Flux_E50/~1790eV
Index
50
Element
Name
FODO_Flux_E51/~2090eV
Index
51
Element
Name
FODO_Flux_E52/~2400eV
Index
52
Element
Name
FODO_Flux_E53/~2800eV
Index
53
Element
Name
FODO_Flux_E54/~3300eV
Index
54
Element
Name
FODO_Flux_E55/~3800eV
Index
55
Element
Name
FODO_Flux_E56/~4500eV
Index
56
Element
Name
FODO_Flux_E57/~5200eV
Index
57
Element
Name
FODO_Flux_E58/~6100eV
Index
58
Element
Name
FODO_Flux_E59/~7100eV
Index
59
Element
Name
FODO_Flux_E60/~8300eV
Index
60
Element
Name
FODO_Flux_E61/~9600eV
Index
61
Element
Name
FODO_Flux_E62/~11200eV
Index
62
Element
Name
FODO_Flux_E63/~13100eV
Index
63
Element
Name
FODO_Flux_E64/~15200eV
Index
64
Element
Name
FODO_Flux_E65/~17800eV
Index
65
Element
Name
FODO_Flux_E66/~20700eV
Index
66
Element
Name
FODO_Flux_E67/~24000eV
Index
67
Element
Name
FODO_Flux_E68/~28000eV
Index
68
Element
Name
FODO_Flux_E69/~33000eV
Index
69
Element
Name
FODO_Flux_E70/~38000eV
Index
70
Element
Name
FODO_Flux_E71/~44000eV
Index
71
Element
Name
FODO_Flux_E72/~52000eV
Index
72
ValidMin
0.0
ValidMax
1.0e+16
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
8
Parameter #23
Name
Oxygen Differential Flux Intensity, Unidirectional, Energy-Angle Plasmagrams
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FODU
Description
Oxygen Differential Flux Intensity, Unidirectional, Energy-Angle Plasmagrams, Energies from ~1 eV to ~50 keV. Column 1 Labels from PITCH_ANGLE: [ 4.50000, 18.0000, 36.0000, 54.0000, 72.0000, 90.0000, 108.000, 126.000, 144.000, 162.000, 175.500]
Caveats
Oxygen Flux as a Function of 11 Pitch Angles, as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
AxisLabel
FODU: Oxygen Flux
ValueFormat
E12.2
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
8
Parameter #24
Name
Oxygen Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FODU_byE_atA
Description
Oxygen Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Energies from ~1 eV to ~50 keV, Perigee Mode excluded. * Column 1 Labels from PITCH_ANGLE: ["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"]. * Column 2 Labels from HOPE_ENERGY_ION: ["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"].
Caveats
Oxygen Flux as a Function of 11 Pitch Angles, as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FODU.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
DisplayType
Spectrogram
AxisLabel
FODU: Oxygen Flux
ValueFormat
E12.2
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
8
Parameter #25
Name
Oxygen Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FODU_byA_atE
Description
Oxygen Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Energies from ~1 eV to ~50 keV, Perigee Mode excluded. * Column 1 Labels from PITCH_ANGLE: ["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"]. * Column 2 Labels from HOPE_ENERGY_ION: ["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"].
Caveats
Oxygen Flux as a Function of 11 Pitch Angles, as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. This parameter is virtual. It is calculated by calling the function APPLY_ESA_QFLAG with the following input parameters: FODU, Mode_Ion.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
DisplayType
Spectrogram
AxisLabel
FODU: Oxygen Flux
ValueFormat
E12.2
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
8
Parameter #26
Name
Helium Differential Flux Intensity, Omnidirectional, Spectrograms
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FHEDO
Description
Helium Differential Flux Intensity, Omnidirectional, Spectrograms, Energies from ~1 eV to ~50 keV
Caveats
Flux integrated, piecewise constant, over 11 Pitch Angles and 20 Gyro Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and over 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
DisplayType
Spectrogram
AxisLabel
FHEDO: Helium Flux
ValueFormat
E12.2
ScaleMin
1000.0
ScaleMax
1.0e+13
ScaleType
LogScale
Structure
ValidMin
0.0
ValidMax
1.0e+16
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
2
Parameter #27
Name
Helium Differential Flux Intensity, Omnidirectional, Time Series Stack Plots
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FHEDO_T
Description
Helium Differential Flux Intensity, Omnidirectional, Time Series Stack Plots, Energies from ~1 eV to ~50 keV, Perigee Mode excluded
Caveats
Flux integrated, piecewise constant, over 11 Pitch Angles and 20 Gyro Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and over 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. This parameter is virtual. It is calculated by calling the function APPLY_ESA_QFLAG with the following input parameters: FHEDO, Mode_Ion.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
AxisLabel
FHEDO: Helium Flux
ValueFormat
E12.2
ScaleMin
1000.0
ScaleMax
1.0e+13
ScaleType
LogScale
Structure
Size
72
Element
Name
FHEDO_Flux_E01/~1.00eV
Index
1
Element
Name
FHEDO_Flux_E02/~1.20eV
Index
2
Element
Name
FHEDO_Flux_E03/~1.34eV
Index
3
Element
Name
FHEDO_Flux_E04/~1.55eV
Index
4
Element
Name
FHEDO_Flux_E05/~1.83eV
Index
5
Element
Name
FHEDO_Flux_E06/~2.18eV
Index
6
Element
Name
FHEDO_Flux_E07/~2.5eV
Index
7
Element
Name
FHEDO_Flux_E08/~3.0eV
Index
8
Element
Name
FHEDO_Flux_E09/~3.4eV
Index
9
Element
Name
FHEDO_Flux_E10/~3.9eV
Index
10
Element
Name
FHEDO_Flux_E11/~4.6eV
Index
11
Element
Name
FHEDO_Flux_E12/~5.3eV
Index
12
Element
Name
FHEDO_Flux_E13/~6.3eV
Index
13
Element
Name
FHEDO_Flux_E14/~7.3eV
Index
14
Element
Name
FHEDO_Flux_E15/~8.5eV
Index
15
Element
Name
FHEDO_Flux_E16/~9.9eV
Index
16
Element
Name
FHEDO_Flux_E17/~11.5eV
Index
17
Element
Name
FHEDO_Flux_E18/~13.4eV
Index
18
Element
Name
FHEDO_Flux_E19/~15.7eV
Index
19
Element
Name
FHEDO_Flux_E20/~18.3eV
Index
20
Element
Name
FHEDO_Flux_E21/~21.2eV
Index
21
Element
Name
FHEDO_Flux_E22/~24.8eV
Index
22
Element
Name
FHEDO_Flux_E23/~29eV
Index
23
Element
Name
FHEDO_Flux_E24/~34eV
Index
24
Element
Name
FHEDO_Flux_E25/~39eV
Index
25
Element
Name
FHEDO_Flux_E26/~46eV
Index
26
Element
Name
FHEDO_Flux_E27/~53eV
Index
27
Element
Name
FHEDO_Flux_E28/~62eV
Index
28
Element
Name
FHEDO_Flux_E29/~72eV
Index
29
Element
Name
FHEDO_Flux_E30/~84eV
Index
30
Element
Name
FHEDO_Flux_E31/~98eV
Index
31
Element
Name
FHEDO_Flux_E32/~114eV
Index
32
Element
Name
FHEDO_Flux_E33/~133eV
Index
33
Element
Name
FHEDO_Flux_E34/~155eV
Index
34
Element
Name
FHEDO_Flux_E35/~181eV
Index
35
Element
Name
FHEDO_Flux_E36/~211eV
Index
36
Element
Name
FHEDO_Flux_E37/~246eV
Index
37
Element
Name
FHEDO_Flux_E38/~286eV
Index
38
Element
Name
FHEDO_Flux_E39/~330eV
Index
39
Element
Name
FHEDO_Flux_E40/~390eV
Index
40
Element
Name
FHEDO_Flux_E41/~450eV
Index
41
Element
Name
FHEDO_Flux_E42/~530eV
Index
42
Element
Name
FHEDO_Flux_E43/~610eV
Index
43
Element
Name
FHEDO_Flux_E44/~720eV
Index
44
Element
Name
FHEDO_Flux_E45/~830eV
Index
45
Element
Name
FHEDO_Flux_E46/~970eV
Index
46
Element
Name
FHEDO_Flux_E47/~1130eV
Index
47
Element
Name
FHEDO_Flux_E48/~1320eV
Index
48
Element
Name
FHEDO_Flux_E49/~1540eV
Index
49
Element
Name
FHEDO_Flux_E50/~1790eV
Index
50
Element
Name
FHEDO_Flux_E51/~2090eV
Index
51
Element
Name
FHEDO_Flux_E52/~2400eV
Index
52
Element
Name
FHEDO_Flux_E53/~2800eV
Index
53
Element
Name
FHEDO_Flux_E54/~3300eV
Index
54
Element
Name
FHEDO_Flux_E55/~3800eV
Index
55
Element
Name
FHEDO_Flux_E56/~4500eV
Index
56
Element
Name
FHEDO_Flux_E57/~5200eV
Index
57
Element
Name
FHEDO_Flux_E58/~6100eV
Index
58
Element
Name
FHEDO_Flux_E59/~7100eV
Index
59
Element
Name
FHEDO_Flux_E60/~8300eV
Index
60
Element
Name
FHEDO_Flux_E61/~9600eV
Index
61
Element
Name
FHEDO_Flux_E62/~11200eV
Index
62
Element
Name
FHEDO_Flux_E63/~13100eV
Index
63
Element
Name
FHEDO_Flux_E64/~15200eV
Index
64
Element
Name
FHEDO_Flux_E65/~17800eV
Index
65
Element
Name
FHEDO_Flux_E66/~20700eV
Index
66
Element
Name
FHEDO_Flux_E67/~24000eV
Index
67
Element
Name
FHEDO_Flux_E68/~28000eV
Index
68
Element
Name
FHEDO_Flux_E69/~33000eV
Index
69
Element
Name
FHEDO_Flux_E70/~38000eV
Index
70
Element
Name
FHEDO_Flux_E71/~44000eV
Index
71
Element
Name
FHEDO_Flux_E72/~52000eV
Index
72
ValidMin
0.0
ValidMax
1.0e+16
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
2
Parameter #28
Name
Helium Differential Flux Intensity, Unidirectional, Energy-Angle Plasmagrams
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FHEDU
Description
Helium Differential Flux Intensity, Unidirectional, Energy-Angle Plasmagrams, Energies from ~1 eV to ~50 keV. Column 1 Labels from PITCH_ANGLE: [ 4.50000, 18.0000, 36.0000, 54.0000, 72.0000, 90.0000, 108.000, 126.000, 144.000, 162.000, 175.500]
Caveats
Helium Flux as a Function of 11 Pitch Angles, as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
AxisLabel
FHEDU: Helium Flux
ValueFormat
E12.2
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
2
Parameter #29
Name
Helium Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FHEDU_byE_atA
Description
Helium Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Energies from ~1 eV to ~50 keV, Perigee Mode excluded. * Column 1 Labels from PITCH_ANGLE: ["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"]. * Column 2 Labels from HOPE_ENERGY_ION: ["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"].
Caveats
Helium Flux as a Function of 11 Pitch Angles, as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FHEDU.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
DisplayType
Spectrogram
AxisLabel
FHEDU: Helium Flux
ValueFormat
E12.2
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
2
Parameter #30
Name
Helium Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies
Set
Time Series defined by using: EPOCH_ION
ParameterKey
FHEDU_byA_atE
Description
Helium Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Energies from ~1 eV to ~50 keV, Perigee Mode excluded. * Column 1 Labels from PITCH_ANGLE: ["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"]. * Column 2 Labels from HOPE_ENERGY_ION: ["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"].
Caveats
Helium Flux as a Function of 11 Pitch Angles, as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis, and 72 Energies. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. This parameter is virtual. It is calculated by calling the function APPLY_ESA_QFLAG with the following input parameters: FHEDU, Mode_Ion.
Cadence
PT11.35S
Units
(cm^2 s sr keV)^-1
UnitsConversion
6.24161e-16>(m^2 s sr J)^-1
RenderingHints
DisplayType
Spectrogram
AxisLabel
FHEDU: Helium Flux
ValueFormat
E12.2
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
NumberFlux
AtomicNumber
2
Parameter #31
Name
Data Quality Flag Type Descriptions, Electron Data
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
Flags_Ele
Description
Data Quality Flag Type Descriptions, Electron Data
Caveats
Flags to indicate potential Issues with Electron Data. Each Element of this Array contains the Flag Status for a particular Concern. A Value of Zero of r a particular File Type indicates no unusual Concerns of that Type for that Time Sample. Increasing Flag Values indicate increasing Concern. See the FLAGS Variable for a Description of each Element.
Cadence
PT11.35S
RenderingHints
DisplayType
TimeSeries
AxisLabel
Electron flags
ValueFormat
I3
ScaleType
LinearScale
Structure
Size
8
Element
Element
Element
Element
Element
Element
Element
Element
ValidMin
0
ValidMax
254
FillValue
255
Support
Qualifier
Array
SupportQuantity
Other
Parameter #32
Name
Data Quality Flag Type Descriptions, Ion Data
Set
Time Series defined by using: EPOCH_ION
ParameterKey
Flags_Ion
Description
Data Quality Flag Type Descriptions, Ion Data
Caveats
Flags to indicate potential Issues with Ion Data. Each Element of this Array contains the Flag Status for a particular Concern. A Value of Zero of r a particular File Type indicates no unusual Concerns of that Type for that Time Sample. Increasing Flag Values indicate increasing Concern. See the FLAGS Variable for a Description of each Element.
Cadence
PT11.35S
RenderingHints
DisplayType
TimeSeries
AxisLabel
Ion flags
ValueFormat
I3
ScaleType
LinearScale
Structure
Size
8
Element
Element
Element
Element
Element
Element
Element
Element
ValidMin
0
ValidMax
254
FillValue
255
Support
Qualifier
Array
SupportQuantity
Other
Parameter #33
Name
Instrument Data Mode, Electron
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
Mode_Ele
Description
Instrument Data Mode, Electron
Caveats
Indicates the Instrument Mode for the Data Collection. Each Instrument Mode has a different Set of Energy Channels. See the corresponding HOPE_ENERGY_Electron Record. 0=Apogee Mode: Normal Operation, 1=Perigee Mode: Minimum Energy Channel raised during the Pass through Perigee, 2=Burst Mode: Subset of Energies sampled at rapid Cadence.
Cadence
PT11.35S
RenderingHints
DisplayType
TimeSeries
AxisLabel
Electron mode
ValueFormat
I3
ScaleType
LinearScale
ValidMin
0
ValidMax
2
FillValue
255
Support
Qualifier
Scalar
SupportQuantity
InstrumentMode
Parameter #34
Name
Instrument Data Mode, Ion
Set
Time Series defined by using: EPOCH_ION
ParameterKey
Mode_Ion
Description
Instrument Data Mode, Ion
Caveats
Indicates the Instrument Mode for the Data Collection. Each Instrument Mode has a different Set of Energy Channels. See the corresponding HOPE_ENERGY_Electron Record. 0=Apogee Mode: Normal Operation, 1=Perigee Mode: Minimum Energy Channel raised during the Pass through Perigee, 2=Burst Mode: Subset of Energies sampled at rapid Cadence.
Cadence
PT11.35S
RenderingHints
DisplayType
TimeSeries
AxisLabel
Ion mode
ValueFormat
I3
ScaleType
LinearScale
ValidMin
0
ValidMax
1
FillValue
255
Support
Qualifier
Scalar
SupportQuantity
InstrumentMode
Parameter #35
Name
HOPE Electron Differential Counts, Omnidirectional
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
Counts_E_Omni
Description
HOPE Electron Differential Counts, Omnidirectional
Caveats
Counts summed over over 72 Energies and over 20 Gyro Angles and 11 Pitch Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
RenderingHints
DisplayType
Spectrogram
AxisLabel
e- counts
ValueFormat
E14.3
ScaleMin
0.1
ScaleMax
10000.0
ScaleType
LogScale
Structure
ValidMin
0.0
ValidMax
1.0e+16
FillValue
-1.0e+31
Particle
ParticleType
Electron
Qualifier
Array
ParticleQuantity
Counts
Parameter #36
Name
HOPE Electron Differential Counts, Directional
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
Counts_E
Description
HOPE Electron Differential Counts, Directional, not for Plotting. Column 1 Labels from PITCH_ANGLE: [ 4.50000, 18.0000, 36.0000, 54.0000, 72.0000, 90.0000, 108.000, 126.000, 144.000, 162.000, 175.500]
Caveats
Counts as a Function of 72 Energies and 11 Pitch Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. The Counts are summed over all Measurements in each Pitch Angle/Gyro Angle Bin.
Cadence
PT11.35S
RenderingHints
DisplayType
Spectrogram
AxisLabel
e- counts
ValueFormat
E14.3
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Electron
Qualifier
Array
ParticleQuantity
Counts
Parameter #37
Name
HOPE Proton Differential Counts, Omnidirectional
Set
Time Series defined by using: EPOCH_ION
ParameterKey
Counts_P_Omni
Description
HOPE Proton Differential Counts, Omnidirectional
Caveats
Counts summed over over 72 Energies and over 20 Gyro Angles and 11 Pitch Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
RenderingHints
DisplayType
Spectrogram
AxisLabel
p+ counts
ValueFormat
E14.3
ScaleMin
0.1
ScaleMax
10000.0
ScaleType
LogScale
Structure
ValidMin
0.0
ValidMax
1.0e+16
FillValue
-1.0e+31
Particle
ParticleType
Proton
Qualifier
Array
ParticleQuantity
Counts
AtomicNumber
1
Parameter #38
Name
HOPE Proton Differential Counts, Directional
Set
Time Series defined by using: EPOCH_ION
ParameterKey
Counts_P
Description
HOPE Proton Differential Counts, Directional, not for Plotting. Column 1 Labels from PITCH_ANGLE: [ 4.50000, 18.0000, 36.0000, 54.0000, 72.0000, 90.0000, 108.000, 126.000, 144.000, 162.000, 175.500]
Caveats
Counts as a Function of 72 Energies and 11 Pitch Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. The Counts are summed over all Measurements in each Pitch Angle/Gyro Angle Bin.
Cadence
PT11.35S
RenderingHints
DisplayType
Spectrogram
AxisLabel
p+ counts
ValueFormat
E14.3
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Proton
Qualifier
Array
ParticleQuantity
Counts
AtomicNumber
1
Parameter #39
Name
HOPE Helium Differential Counts, Omnidirectional
Set
Time Series defined by using: EPOCH_ION
ParameterKey
Counts_He_Omni
Description
HOPE Helium Differential Counts, Omnidirectional
Caveats
Counts summed over over 72 Energies and over 20 Gyro Angles and 11 Pitch Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
RenderingHints
DisplayType
Spectrogram
AxisLabel
He+ counts
ValueFormat
E14.3
ScaleMin
0.1
ScaleMax
3000.0
ScaleType
LogScale
Structure
ValidMin
0.0
ValidMax
1.0e+16
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
Counts
AtomicNumber
2
Parameter #40
Name
HOPE Helium Differential Counts, Directional
Set
Time Series defined by using: EPOCH_ION
ParameterKey
Counts_He
Description
HOPE Helium Differential Counts, Directional, not for Plotting. Column 1 Labels from PITCH_ANGLE: [ 4.50000, 18.0000, 36.0000, 54.0000, 72.0000, 90.0000, 108.000, 126.000, 144.000, 162.000, 175.500]
Caveats
Counts as a Function of 72 Energies and 11 Pitch Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. The Counts are summed over all Measurements in each Pitch Angle/Gyro Angle Bin.
Cadence
PT11.35S
RenderingHints
DisplayType
Spectrogram
AxisLabel
He+ counts
ValueFormat
E14.3
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
Counts
AtomicNumber
2
Parameter #41
Name
HOPE Oxygen Differential Counts, Omnidirectional
Set
Time Series defined by using: EPOCH_ION
ParameterKey
Counts_O_Omni
Description
HOPE Oxygen Differential Counts, Omnidirectional
Caveats
Counts summed over over 72 Energies and over 20 Gyro Angles and 11 Pitch Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
RenderingHints
DisplayType
Spectrogram
AxisLabel
O+ counts
ValueFormat
E14.3
ScaleMin
0.1
ScaleMax
10000.0
ScaleType
LogScale
Structure
ValidMin
0.0
ValidMax
1.0e+16
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
Counts
AtomicNumber
8
Parameter #42
Name
HOPE Oxygen Differential Counts, Directional
Set
Time Series defined by using: EPOCH_ION
ParameterKey
Counts_O
Description
HOPE Oxygen Differential Counts, Directional, not for Plotting. Column 1 Labels from PITCH_ANGLE: [ 4.50000, 18.0000, 36.0000, 54.0000, 72.0000, 90.0000, 108.000, 126.000, 144.000, 162.000, 175.500]
Caveats
Counts as a Function of 72 Energies and 11 Pitch Angles as computed by using the Magnetic Field Direction crossed with the Spacecraft Spin Axis. Note that the Data have been expanded to the highest possible Resolution. Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions. The Counts are summed over all Measurements in each Pitch Angle/Gyro Angle Bin.
Cadence
PT11.35S
RenderingHints
DisplayType
Spectrogram
AxisLabel
O+ counts
ValueFormat
E14.3
ScaleType
LogScale
Structure
FillValue
-1.0e+31
Particle
ParticleType
Ion
Qualifier
Array
ParticleQuantity
Counts
AtomicNumber
8
Parameter #43
Name
Number of Samples in the Summation, Electron Differential Flux Intensity, Omnidirectional
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
Ele_SAMPLES_Omni
Description
Number of Samples in the Summation, Electron Differential Flux Intensity, Omnidirectional, not for Plotting
Caveats
Number of Samples used in computing the Flux summed over Pitch Angle. Note that the Data have been expanded to the highest possible Resolution (16 Spin angles, 72 Energies). Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
RenderingHints
AxisLabel
Electron samples
ValueFormat
I4
ScaleMin
0
ScaleMax
30
ScaleType
LinearScale
Structure
ValidMin
0
ValidMax
253
FillValue
255
Support
Qualifier
Array
SupportQuantity
Other
Parameter #44
Name
Number of Samples in the Summation, Electron Differential Flux Intensity, Unidirectional
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
Ele_SAMPLES
Description
Number of Samples in the Summation, Electron Differential Flux Intensity, Unidirectional, not for Plotting. Column 1 Labels from PITCH_ANGLE: [ 4.50000, 18.0000, 36.0000, 54.0000, 72.0000, 90.0000, 108.000, 126.000, 144.000, 162.000, 175.500]
Caveats
Number of Samples used in computing the Flux summed over Pitch Angle. Note that the Data have been expanded to the highest possible Resolution (16 Spin angles, 72 Energies). Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
RenderingHints
AxisLabel
Electron samples
ValueFormat
I4
ScaleType
LinearScale
Structure
FillValue
255
Support
Qualifier
Array
SupportQuantity
Other
Parameter #45
Name
Number of Samples in the Summation, Ion Differential Flux Intensity, Omnidirectional
Set
Time Series defined by using: EPOCH_ION
ParameterKey
Ion_SAMPLES_Omni
Description
Number of Samples in the Summation, Ion Differential Flux Intensity, Omnidirectional, not for Plotting
Caveats
Number of Samples used in computing the Flux summed over Pitch Angle. Note that the Data have been expanded to the highest possible Resolution (16 Spin angles, 72 Energies). Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
RenderingHints
AxisLabel
Ion samples
ValueFormat
I4
ScaleMin
0
ScaleMax
30
ScaleType
LinearScale
Structure
ValidMin
0
ValidMax
253
FillValue
255
Support
Qualifier
Array
SupportQuantity
Other
Parameter #46
Name
Number of Samples in the Summation, Ion Differential Flux Intensity, Unidirectional
Set
Time Series defined by using: EPOCH_ION
ParameterKey
Ion_SAMPLES
Description
Number of Samples in the Summation, Ion Differential Flux Intensity, Unidirectional, not for Plotting. Column 1 Labels from PITCH_ANGLE: [ 4.50000, 18.0000, 36.0000, 54.0000, 72.0000, 90.0000, 108.000, 126.000, 144.000, 162.000, 175.500]
Caveats
Number of Samples used in computing the Flux summed over Pitch Angle. Note that the Data have been expanded to the highest possible Resolution (16 Spin angles, 72 Energies). Before September 2013, the transmitted Data were collapsed to 36 Energies and 4-8-16-8-4 Spin Angles in order to meet Telemetry Allocation Restrictions.
Cadence
PT11.35S
RenderingHints
AxisLabel
Ion samples
ValueFormat
I4
ScaleType
LinearScale
Structure
FillValue
255
Support
Qualifier
Array
SupportQuantity
Other
Parameter #47
Name
Model Spacecraft Magnetic Field Magnitude, Electrons
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
B_Calc_Ele
Description
Model Spacecraft Magnetic Field Magnitude, Electron Time Base
Caveats
The Model Magnetic Field Data was interpolated from the 1 min Magnetic Field Ephemeris Time Resolution to match the Electron Measurement Time Base. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. Average Type: standard
Cadence
PT11.35S
Units
nT
UnitsConversion
1.0e-9>T
RenderingHints
DisplayType
TimeSeries
AxisLabel
B
ValueFormat
F7.0
ScaleMin
0.0
ScaleMax
2000.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
99999.0
FillValue
-1.0e+31
Field
Qualifier
Magnitude
Qualifier
Scalar
FieldQuantity
Magnetic
Parameter #48
Name
Model Spacecraft Magnetic Field Magnitude, Ions
Set
Time Series defined by using: EPOCH_ION
ParameterKey
B_Calc_Ion
Description
Model Spacecraft Magnetic Field Magnitude, Ion Time Base
Caveats
The Model Magnetic Field Data was interpolated from the 1 min Magnetic Field Ephemeris Time Resolution to match the Ion Measurement Time Base. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. Average Type: standard
Cadence
PT11.35S
Units
nT
UnitsConversion
1.0e-9>T
RenderingHints
DisplayType
TimeSeries
AxisLabel
B
ValueFormat
F7.0
ScaleMin
0.0
ScaleMax
2000.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
99999.0
FillValue
-1.0e+31
Field
Qualifier
Magnitude
Qualifier
Scalar
FieldQuantity
Magnetic
Parameter #49
Name
Model Magnetic Field Magnitude, Magnetic Equator, Electrons
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
B_Eq_Ele
Description
Model Magnetic Field Magnitude, Magnetic Equator, Electron Time Base
Caveats
The Model Magnetic Field Data was interpolated from the 1 min Magnetic Field Ephemeris Time Resolution to match the Electron Measurement Time Base. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. Average Type: standard
Cadence
PT11.35S
Units
nT
UnitsConversion
1.0e-9>T
RenderingHints
DisplayType
TimeSeries
AxisLabel
B Eq.
ValueFormat
F7.0
ScaleMin
0.0
ScaleMax
2000.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
99999.0
FillValue
-1.0e+31
Field
Qualifier
Magnitude
Qualifier
Scalar
FieldQuantity
Magnetic
Parameter #50
Name
Model Magnetic Field Magnitude, Magnetic Equator, Ions
Set
Time Series defined by using: EPOCH_ION
ParameterKey
B_Eq_Ion
Description
Model Magnetic Field Magnitude, Magnetic Equator, Ion Time Base
Caveats
The Model Magnetic Field Data was interpolated from the 1 min Magnetic Field Ephemeris Time Resolution to match the Ion Measurement Time Base. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. Average Type: standard
Cadence
PT11.35S
Units
nT
UnitsConversion
1.0e-9>T
RenderingHints
DisplayType
TimeSeries
AxisLabel
B Eq.
ValueFormat
F7.0
ScaleMin
0.0
ScaleMax
2000.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
99999.0
FillValue
-1.0e+31
Field
Qualifier
Magnitude
Qualifier
Scalar
FieldQuantity
Magnetic
Parameter #51
Name
Electron Second Adiabatic Invariant, Bounce, Electrons
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
I_Ele
Description
Electron Second Adiabatic Invariant, Bounce, Electron Time Base
Caveats
The Model Magnetic Field Data was interpolated from the 1 min Magnetic Field Ephemeris Time Resolution to match the Electron Measurement Time Base. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. Average Type: standard
Cadence
PT11.35S
RenderingHints
DisplayType
TimeSeries
AxisLabel
I
ValueFormat
F6.1
ScaleMin
0.0
ScaleMax
20.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
1000.0
FillValue
-1.0e+31
Support
Qualifier
Scalar
SupportQuantity
Other
Parameter #52
Name
Ion Second Adiabatic Invariant, Bounce, Ions
Set
Time Series defined by using: EPOCH_ION
ParameterKey
I_Ion
Description
Ion Second Adiabatic Invariant, Bounce, Ion Time Base
Caveats
The Model Magnetic Field Data was interpolated from the 1 min Magnetic Field Ephemeris Time Resolution to match the Ion Measurement Time Base. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. Average Type: standard
Cadence
PT11.35S
RenderingHints
DisplayType
TimeSeries
AxisLabel
I
ValueFormat
F6.1
ScaleMin
0.0
ScaleMax
20.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
1000.0
FillValue
-1.0e+31
Support
Qualifier
Scalar
SupportQuantity
Other
Parameter #53
Name
McIlwain L Shell Parameter, Electrons
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
L_Ele
Description
McIlwain L Shell Parameter, Electron Time Base
Caveats
The Model Magnetic Field Data was interpolated from the 1 min Magnetic Field Ephemeris Time Resolution to match the Electron Measurement Time Base. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. Average Type: standard
Cadence
PT11.35S
RenderingHints
DisplayType
TimeSeries
AxisLabel
L
ValueFormat
F6.1
ScaleMin
0.0
ScaleMax
8.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
1000.0
FillValue
-1.0e+31
Support
Qualifier
Scalar
SupportQuantity
Other
Parameter #54
Name
McIlwain L Shell Parameter, Ions
Set
Time Series defined by using: EPOCH_ION
ParameterKey
L_Ion
Description
McIlwain L Shell Parameter, Ion Time Base
Caveats
The Model Magnetic Field Data was interpolated from the 1 min Magnetic Field Ephemeris Time Resolution to match the Ion Measurement Time Base. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. Average Type: standard
Cadence
PT11.35S
RenderingHints
DisplayType
TimeSeries
AxisLabel
L
ValueFormat
F6.1
ScaleMin
0.0
ScaleMax
8.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
1000.0
FillValue
-1.0e+31
Support
Qualifier
Scalar
SupportQuantity
Other
Parameter #55
Name
Roederer L* generalized L Shell Parameter, Electrons
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
L_star_Ele
Description
Roederer L* generalized L Shell Parameter, Electron Time Base
Caveats
The Model Magnetic Field Data was interpolated from the 1 min Magnetic Field Ephemeris Time Resolution to match the Electron Measurement Time Base. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. Average Type: standard
Cadence
PT11.35S
RenderingHints
DisplayType
TimeSeries
AxisLabel
L*
ValueFormat
F6.1
ScaleMin
0.0
ScaleMax
8.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
1000.0
FillValue
-1.0e+31
Support
Qualifier
Scalar
SupportQuantity
Other
Parameter #56
Name
Roederer L* generalized L Shell Parameter, Ions
Set
Time Series defined by using: EPOCH_ION
ParameterKey
L_star_Ion
Description
Roederer L* generalized L Shell Parameter, Ion Time Base
Caveats
The Model Magnetic Field Data was interpolated from the 1 min Magnetic Field Ephemeris Time Resolution to match the Ion Measurement Time Base. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. Average Type: standard
Cadence
PT11.35S
RenderingHints
DisplayType
TimeSeries
AxisLabel
L*
ValueFormat
F6.1
ScaleMin
0.0
ScaleMax
8.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
1000.0
FillValue
-1.0e+31
Support
Qualifier
Scalar
SupportQuantity
Other
Parameter #57
Name
Spacecraft Position, Magnetic Local Time, Electrons
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
MLT_Ele
Description
Spacecraft Position, Magnetic Local Time, MLT, in Hours, Electron Time Base
Caveats
The Model Magnetic Field Data was interpolated from the 1 min Magnetic Field Ephemeris Time Resolution to match the Electron Measurement Time Base. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. Average Type: standard
Cadence
PT11.35S
Units
h
UnitsConversion
3600>s
CoordinateSystem
CoordinateRepresentation
Spherical
CoordinateSystemName
MAG
RenderingHints
DisplayType
TimeSeries
AxisLabel
MLT
ValueFormat
F4.1
ScaleMin
0.0
ScaleMax
24.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
24.0
FillValue
-1.0e+31
Support
Qualifier
DirectionAngle.ElevationAngle
Qualifier
Scalar
SupportQuantity
Positional
Parameter #58
Name
Spacecraft Position, Magnetic Local Time, Ions
Set
Time Series defined by using: EPOCH_ION
ParameterKey
MLT_Ion
Description
Spacecraft Position, Magnetic Local Time, MLT, in Hours, Ion Time Base
Caveats
The Model Magnetic Field Data was interpolated from the 1 min Magnetic Field Ephemeris Time Resolution to match the Ion Measurement Time Base. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. Average Type: standard
Cadence
PT11.35S
Units
h
UnitsConversion
3600>s
CoordinateSystem
CoordinateRepresentation
Spherical
CoordinateSystemName
MAG
RenderingHints
DisplayType
TimeSeries
AxisLabel
MLT
ValueFormat
F4.1
ScaleMin
0.0
ScaleMax
24.0
ScaleType
LinearScale
ValidMin
0.0
ValidMax
24.0
FillValue
-1.0e+31
Support
Qualifier
DirectionAngle.ElevationAngle
Qualifier
Scalar
SupportQuantity
Positional
Parameter #59
Name
Spacecraft Position Vector, Geographic Cartesian Coordinates, Electrons
Set
Time Series defined by using: EPOCH_ELE
ParameterKey
Position_Ele
Description
Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates, Electron Time Base
Caveats
The Origin is the Center of Mass of the Earth. The X-Axis points to the Intersection of the Greenwich Meridian and Geographic Equator. The Z Axis points to the Geographic North Pole. The Y Axis completes the Right-Handed Cartesian Triad with Y = -X × Z.
Cadence
PT11.35S
Units
km
UnitsConversion
1.0e3>m
CoordinateSystem
CoordinateRepresentation
Cartesian
CoordinateSystemName
GEO
RenderingHints
DisplayType
TimeSeries
AxisLabel
position
ValueFormat
F7.0
ScaleType
LinearScale
Structure
Size
3
Element
Element
Element
ValidMin
-63700.0
ValidMax
63700.0
FillValue
-1.0e+31
Support
Qualifier
Vector
Qualifier
Array
SupportQuantity
Positional
Parameter #60
Name
Spacecraft Position Vector, Geographic Cartesian Coordinates, Ions
Set
Time Series defined by using: EPOCH_ION
ParameterKey
Position_Ion
Description
Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates, Ion Time Base
Caveats
The Origin is the Center of Mass of the Earth. The X-Axis points to the Intersection of the Greenwich Meridian and Geographic Equator. The Z Axis points to the Geographic North Pole. The Y Axis completes the Right-Handed Cartesian Triad with Y = -X × Z.
Cadence
PT11.35S
Units
km
UnitsConversion
1.0e3>m
CoordinateSystem
CoordinateRepresentation
Cartesian
CoordinateSystemName
GEO
RenderingHints
DisplayType
TimeSeries
AxisLabel
position
ValueFormat
F7.0
ScaleType
LinearScale
Structure
Size
3
Element
Element
Element
ValidMin
-63700.0
ValidMax
63700.0
FillValue
-1.0e+31
Support
Qualifier
Vector
Qualifier
Array
SupportQuantity
Positional