HPDE.io

DE 2 Vector Electric Field Instrument, VEFI, Magnetometer, MAG-B, Merged Magnetic and Electric Field Parameters, 62 ms Data

(2023). DE 2 Vector Electric Field Instrument, VEFI, Magnetometer, MAG-B, Merged Magnetic and Electric Field Parameters, 62 ms Data [Data set]. NASA Space Physics Data Facility. https://doi.org/10.48322/ha70-4305. Accessed on .

Note: Proper references, including those in BibTex or other formats, should include the "Accessed on date" as shown above to identify the version of the resource being cited in a given publication.

ResourceID
spase://NASA/NumericalData/DE2/MAGB-VEFI/CDF/PT0.062S

Description

This Dynamics Explorer 2, DE 2, data set is a combination of the Vector Electric Field Instrument, VEFI, and Magnetometer-B, MAGB, high resolution data sets in spacecraft, SC, coordinates submitted to NSSDC. The following orbit-altitude, OA, parameters have been added to the data set:

    1. Model magnetic field, SC coordinates
    1. Satellite altitude
    1. Geographic latitude and longitude
    1. Magnetic local time
    1. Invariant latitude

The VEFI data set is described in the file VEFIVOLDESC.SFD and the MAGB data set is described in the file MAGBVOLDESC.SFD, these files are portions of the Standard Format Data Unit, SFDU, metadata files submitted with the VEFI and MAGB data to NSSDC and are included in each volume of this data set. This data set consists of daily files from 1981-08-15, day of year 227, to 1983-02-16, day of year 47. Each file contains all the data available for a given day. During the merging of the data sets it was found that although VEFI and MAGB should cover the same time spans, they do not, due perhaps to the fact that the original MAGB high resolution data set was created on the DE Sigma-9 in Sigma-9 format by using the DE telemetry tapes, while the VEFI high resolution data set was created on the DE MicroVAX system using the DE telemetry data base on optical disk. In order to keep the largest amount of data possible, the merged data set includes all the available VEFI and MAGB data, for those times when VEFI data was available but MAGB was not, 6.54% of the time spanned by this data product, a fill value of 9999999. was given to the MAGB data. Likewise, for those times when MAGB data was available but VEFI was not, 6.87% of the time, the fill value was assigned to the VEFI data. Times for which both VEFI and MAGB data were fill values in the original data sets were not included in the merged data set. There were also times when certain OA parameters were fill values in the OA data base and they are therefore also fill values in this merged data set. The model magnetic field had fill values for 8.55% of the data. Statistics were not kept for the other OA parameters. Each daily file contains a record per measurement. The total number of records in each file varies depending on the amount of data available for a given day.

The DE 2 spacecraft, which was the low-altitude mission component, complemented the high-altitude mission DE 1 spacecraft and was placed into an orbit with a perigee sufficiently low to permit measurements of neutral composition, temperature, and wind. The apogee was high enough to permit measurements above the interaction regions of suprathermal ions, and also plasma flow measurements at the feet of the magnetospheric field lines. The general form of the spacecraft was a short polygon 137 cm in diameter and 115 cm high. The triaxial antennas were 23 m tip-to-tip. One 6 m boom was provided for remote measurements. The spacecraft weight was 403 kg. Power was supplied by a solar cell array, which charged two 6 ampere-hour nickel-cadmium batteries. The spacecraft was three-axis stabilized with the yaw axis aligned toward the center of the Earth to within 1°. The spin axis was normal to the orbit plane within 1° with a spin rate of one revolution per orbit. A single-axis scan platform was included in order to mount the low-altitude plasma instrument (ID: 81-070B-08). The platform rotated about the spin axis. A pulse code modulation telemetry data system was used that operated in real time or in a tape recorder mode. Data were acquired on a science-problem-oriented basis, with closely coordinated operations of the various instruments, both satellites, and supportive experiments. Measurements were temporarily stored on tape recorders before transmission at an 8:1 playback-to-record ratio. Since commands were also stored in a command memory unit, spacecraft operations were not real time. Additional details can be found in R.A. Hoffman et al., Space Sci. Instrum., 5(4), 349, 1981. DE-2 reentered the atmosphere on February 19, 1983. A triaxial fluxgate magnetometer onboard DE 2, MAG-B, similar to one on board DE 1 (ID: 81-070A-01), was used to obtain the magnetic field data needed to study the magnetosphere-ionosphere-atmosphere coupling.

The primary objectives of this investigation were to measure field aligned currents in the auroral oval and over the polar cap at two different altitudes using the two spacecraft, and to correlate these measurements with observations of electric fields, plasma waves, suprathermal particles, thermal particles, and auroral images obtained from investigation (ID: 81-070A-03). The magnetometer had digital compensation of the ambient field in 8000 nT increments. The instrument incorporated its own 12-bit analog-to-digital, A/D, converter, a 4-bit digital compensation register for each axis, and a system control that generated a 48-bit data word consisting of a 16-bit representation of the field measured along each of three magnetometer axes. Track and hold modules were used to obtain simultaneous samples on all three axes. The instrument bandwidth was 25 Hz. The analog range was ±62000 nT, the accuracy was ±4 nT, and the resolution was 1.5 nT. The time resolution was 16 vector samples/s. More details can be found in W.H. Farthing et al., Space Sci. Instrum., 5(4), 551, 1981. The Vector Electric Field Instrument, VEFI, used flight-proven double-probe techniques with 20 m baselines to obtain measurements of DC electric fields.

This electric field investigation had the following objectives:

    1. obtain accurate and comprehensive triaxial DC electric field measurements at ionospheric altitudes in order to refine the basic spatial patterns, define the large-scale time history of these patterns, and study the small-scale temporal and spatial variations within the overall patterns
    1. study the degree to which and in what region the electric field projects to the equatorial plane
    1. obtain measurements of extreme low frequency, ELF, and lower frequency irregularity structures
    1. perform numerous correlative studies

The VEFI instrument consisted of six cylindrical elements 11 m long and 28 mm in diameter. Each antenna was insulated from the plasma except for the outer 2 m. The baseline, or distance between the midpoints of these 2-m active elements, was 20 m. The antennas were interlocked along the edges to prevent oscillation and to increase their rigidity against drag forces. The basic electronic system was very similar in concept to those used on IMP-8 and ISEE 1, but modified for a three-axis measurement on a nonspinning spacecraft. At the core of the system were the high-impedance (10¹² ohm) preamplifiers, whose outputs were accurately subtracted and digitized with 14-bit A/D conversion for sensitivity to about 0.1 µV/m to maintain high resolution for subsequent removal of the cross product of the electric field, V, and magnetic field, B, vectors in data processing. This provided the basic DC measurement. Other circuitry was used to aid in interpreting the DC data and to measure rapid variations in the signals detected by the antennas. The planned DC electric field range was ±1 V/m, the planned resolution was 0.1 mV/m, and the variational AC electric field was measured from 4 Hz to 1024 Hz. The DC electric field was measured at 16 samples/s. The AC electric field was measured from 1 µV/m to 10 mV/m root mean square, rms. Note that the VEFI antenna pair perpendicular to the orbit plane onboard DE 2 did not deploy. Additional details are found in N.C. Maynard et al., Space Sci. Instrum., 5(4), 523, 1981.

View XML | View JSON | Edit

Details

Version:2.6.0

NumericalData

ResourceID
spase://NASA/NumericalData/DE2/MAGB-VEFI/CDF/PT0.062S
ResourceHeader
ResourceName
DE 2 Vector Electric Field Instrument, VEFI, Magnetometer, MAG-B, Merged Magnetic and Electric Field Parameters, 62 ms Data
DOI
https://doi.org/10.48322/ha70-4305
ReleaseDate
2024-02-22 12:34:56.789
RevisionHistory
RevisionEvent
ReleaseDate
2021-04-27 15:38:11
Note
Only known prior ReleaseDate of the metadata
RevisionEvent
ReleaseDate
2023-07-30 12:34:56.789
Note
Added DOI and PublicationInfo minted by LFB, Metadata versioned up to SPASE 2.6.0, reviewed by LFB 20230727
RevisionEvent
ReleaseDate
2024-02-22 12:34:56.789
Note
Corrected TemporalDescription TimeSpan StartDate and StopDate information, Edited ResourceHeader Description to conform with SPASE text normalization and mark-up conventions, LFB 20240222
Description

This Dynamics Explorer 2, DE 2, data set is a combination of the Vector Electric Field Instrument, VEFI, and Magnetometer-B, MAGB, high resolution data sets in spacecraft, SC, coordinates submitted to NSSDC. The following orbit-altitude, OA, parameters have been added to the data set:

    1. Model magnetic field, SC coordinates
    1. Satellite altitude
    1. Geographic latitude and longitude
    1. Magnetic local time
    1. Invariant latitude

The VEFI data set is described in the file VEFIVOLDESC.SFD and the MAGB data set is described in the file MAGBVOLDESC.SFD, these files are portions of the Standard Format Data Unit, SFDU, metadata files submitted with the VEFI and MAGB data to NSSDC and are included in each volume of this data set. This data set consists of daily files from 1981-08-15, day of year 227, to 1983-02-16, day of year 47. Each file contains all the data available for a given day. During the merging of the data sets it was found that although VEFI and MAGB should cover the same time spans, they do not, due perhaps to the fact that the original MAGB high resolution data set was created on the DE Sigma-9 in Sigma-9 format by using the DE telemetry tapes, while the VEFI high resolution data set was created on the DE MicroVAX system using the DE telemetry data base on optical disk. In order to keep the largest amount of data possible, the merged data set includes all the available VEFI and MAGB data, for those times when VEFI data was available but MAGB was not, 6.54% of the time spanned by this data product, a fill value of 9999999. was given to the MAGB data. Likewise, for those times when MAGB data was available but VEFI was not, 6.87% of the time, the fill value was assigned to the VEFI data. Times for which both VEFI and MAGB data were fill values in the original data sets were not included in the merged data set. There were also times when certain OA parameters were fill values in the OA data base and they are therefore also fill values in this merged data set. The model magnetic field had fill values for 8.55% of the data. Statistics were not kept for the other OA parameters. Each daily file contains a record per measurement. The total number of records in each file varies depending on the amount of data available for a given day.

The DE 2 spacecraft, which was the low-altitude mission component, complemented the high-altitude mission DE 1 spacecraft and was placed into an orbit with a perigee sufficiently low to permit measurements of neutral composition, temperature, and wind. The apogee was high enough to permit measurements above the interaction regions of suprathermal ions, and also plasma flow measurements at the feet of the magnetospheric field lines. The general form of the spacecraft was a short polygon 137 cm in diameter and 115 cm high. The triaxial antennas were 23 m tip-to-tip. One 6 m boom was provided for remote measurements. The spacecraft weight was 403 kg. Power was supplied by a solar cell array, which charged two 6 ampere-hour nickel-cadmium batteries. The spacecraft was three-axis stabilized with the yaw axis aligned toward the center of the Earth to within 1°. The spin axis was normal to the orbit plane within 1° with a spin rate of one revolution per orbit. A single-axis scan platform was included in order to mount the low-altitude plasma instrument (ID: 81-070B-08). The platform rotated about the spin axis. A pulse code modulation telemetry data system was used that operated in real time or in a tape recorder mode. Data were acquired on a science-problem-oriented basis, with closely coordinated operations of the various instruments, both satellites, and supportive experiments. Measurements were temporarily stored on tape recorders before transmission at an 8:1 playback-to-record ratio. Since commands were also stored in a command memory unit, spacecraft operations were not real time. Additional details can be found in R.A. Hoffman et al., Space Sci. Instrum., 5(4), 349, 1981. DE-2 reentered the atmosphere on February 19, 1983. A triaxial fluxgate magnetometer onboard DE 2, MAG-B, similar to one on board DE 1 (ID: 81-070A-01), was used to obtain the magnetic field data needed to study the magnetosphere-ionosphere-atmosphere coupling.

The primary objectives of this investigation were to measure field aligned currents in the auroral oval and over the polar cap at two different altitudes using the two spacecraft, and to correlate these measurements with observations of electric fields, plasma waves, suprathermal particles, thermal particles, and auroral images obtained from investigation (ID: 81-070A-03). The magnetometer had digital compensation of the ambient field in 8000 nT increments. The instrument incorporated its own 12-bit analog-to-digital, A/D, converter, a 4-bit digital compensation register for each axis, and a system control that generated a 48-bit data word consisting of a 16-bit representation of the field measured along each of three magnetometer axes. Track and hold modules were used to obtain simultaneous samples on all three axes. The instrument bandwidth was 25 Hz. The analog range was ±62000 nT, the accuracy was ±4 nT, and the resolution was 1.5 nT. The time resolution was 16 vector samples/s. More details can be found in W.H. Farthing et al., Space Sci. Instrum., 5(4), 551, 1981. The Vector Electric Field Instrument, VEFI, used flight-proven double-probe techniques with 20 m baselines to obtain measurements of DC electric fields.

This electric field investigation had the following objectives:

    1. obtain accurate and comprehensive triaxial DC electric field measurements at ionospheric altitudes in order to refine the basic spatial patterns, define the large-scale time history of these patterns, and study the small-scale temporal and spatial variations within the overall patterns
    1. study the degree to which and in what region the electric field projects to the equatorial plane
    1. obtain measurements of extreme low frequency, ELF, and lower frequency irregularity structures
    1. perform numerous correlative studies

The VEFI instrument consisted of six cylindrical elements 11 m long and 28 mm in diameter. Each antenna was insulated from the plasma except for the outer 2 m. The baseline, or distance between the midpoints of these 2-m active elements, was 20 m. The antennas were interlocked along the edges to prevent oscillation and to increase their rigidity against drag forces. The basic electronic system was very similar in concept to those used on IMP-8 and ISEE 1, but modified for a three-axis measurement on a nonspinning spacecraft. At the core of the system were the high-impedance (10¹² ohm) preamplifiers, whose outputs were accurately subtracted and digitized with 14-bit A/D conversion for sensitivity to about 0.1 µV/m to maintain high resolution for subsequent removal of the cross product of the electric field, V, and magnetic field, B, vectors in data processing. This provided the basic DC measurement. Other circuitry was used to aid in interpreting the DC data and to measure rapid variations in the signals detected by the antennas. The planned DC electric field range was ±1 V/m, the planned resolution was 0.1 mV/m, and the variational AC electric field was measured from 4 Hz to 1024 Hz. The DC electric field was measured at 16 samples/s. The AC electric field was measured from 1 µV/m to 10 mV/m root mean square, rms. Note that the VEFI antenna pair perpendicular to the orbit plane onboard DE 2 did not deploy. Additional details are found in N.C. Maynard et al., Space Sci. Instrum., 5(4), 523, 1981.

Acknowledgement
Please acknowledge the Principal Investigator J.A. Slavin for use of the Data
PublicationInfo
Authors
Slavin, James, A.
PublicationDate
2023-01-01 00:00:00
PublishedBy
NASA Space Physics Data Facility
Contacts
RolePersonStartDateStopDateNote
1.PrincipalInvestigatorspase://SMWG/Person/James.A.Slavin
2.MetadataContactspase://SMWG/Person/Robert.M.Candey
3.MetadataContactspase://SMWG/Person/Lee.Frost.Bargatze
InformationURL
Name
Dynamics Explorer 2, DE 2, Merged Magnetometer Instrument, MAGB, and Vector Electric Field Instrument, VEFI, data readme text file, NASA GSFC
URL
Description

Dynamics Explorer 2, DE 2, Merged Magnetometer Instrument, MAGB, and Vector Electric Field Instrument, VEFI, data readme text file, hosted by NASA GSFC

Language
en
InformationURL
Name
Dynamics Explorer 2, DE 2, Magnetometer Instrument, MAGB, instrument and data description, NASA GSFC
URL
Description

Dynamics Explorer 2, DE 2, Magnetometer Instrument, MAGB, instrument and data description, hosted by NASA GSFC

Language
en
InformationURL
Name
Dynamics Explorer 2, DE 2, Vector Electric Field Instrument, VEFI, instrument and data description, NASA GSFC
URL
Description

Dynamics Explorer 2, DE 2, Vector Electric Field Instrument, VEFI, instrument and data description, hosted by NASA GSFC

Language
en
InformationURL
Name
OMNIWeb FTP Browser access to Dynamics Explorer 2 Magnetic and Electric Field ASCII data, NASA GSFC
URL
Description

OMNIWeb FTP Browser access to Dynamics Explorer 2 Magnetic and Electric Field ASCII data including plot, listing, and output file services, hosted by NASA GSFC

Language
en
InformationURL
Name
NSSDC Master Catalog, Dynamics Explorer 2, MAG-B instrument
URL
Description

General information concerning the Dynamics Explorer 2, Magnetic Field Observations, MAG-B, instrument

Language
en
InformationURL
Name
NSSDC Master Catalog, Dynamics Explorer 2, VEFI instrument
URL
Description

General information concerning the Dynamics Explorer 2, Vector Electric Field Instrument, VEFI, instrument

Language
en
PriorIDs
spase://VSPO/NumericalData/DE2/MAGB-VEFI/CDF/PT0.062S
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
DE2_62MS_VEFIMAGB
Description

Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb

Format
CDF
Encoding
None
Acknowledgement
Please acknowledge the Principal Investigator J.A. Slavin. 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
DE2_62MS_VEFIMAGB@0
ProductKey
DE2_62MS_VEFIMAGB@1
Description

Web Service to this product using the HAPI interface.

Format
CSV
Acknowledgement
Please acknowledge the Principal Investigator J.A. Slavin. Please acknowledge the Data Providers and CDAWeb when using these Data.
ProcessingLevel
Calibrated
InstrumentIDs
MeasurementType
ElectricField
MeasurementType
Ephemeris
MeasurementType
MagneticField
TemporalDescription
TimeSpan
StartDate
1981-08-15 00:00:00.000
StopDate
1983-02-16 23:59:59.999
Cadence
PT0.062S
ObservedRegion
Earth.Magnetosphere
ObservedRegion
Earth.Magnetosphere.Polar
ObservedRegion
Earth.NearSurface
ObservedRegion
Earth.NearSurface.AuroralRegion
ObservedRegion
Earth.NearSurface.EquatorialRegion
ObservedRegion
Earth.NearSurface.Ionosphere
ObservedRegion
Earth.NearSurface.PolarCap
Parameter #1
Name
Epoch Time, VEFI
ParameterKey
vtimeEpoch
Description

Epoch Time Tags, VEFI, time elapsed since 0 A.D., NSSDC standard-reference time value

Caveats
Average Type: standard This Parameter exhibits an increasing Monotonic Progression.
Cadence
PT0.062S
Units
ms
UnitsConversion
1.0e-3>s
RenderingHints
DisplayType
TimeSeries
ValueFormat
F14.0
ScaleMin
6.2536662219904e+13
ScaleMax
6.2834069019904e+13
ValidMin
15-Sep-1981 00:00:00.000
ValidMax
18-Feb-1991 23:59:59.999
FillValue
31-Dec-9999 23:59:59.999
Support
SupportQuantity
Temporal
Parameter #2
Name
Epoch Time, MAGB
ParameterKey
mtimeEpoch
Description

Epoch Time Tags, MAGBB, time since 0 A.D., NSSDC standard-reference time value

Caveats
Average Type: standard This Parameter exhibits an increasing Monotonic Progression.
Cadence
PT0.062S
Units
ms
UnitsConversion
1.0e-3>s
RenderingHints
DisplayType
TimeSeries
ValueFormat
F14.0
ScaleMin
6.2536662219904e+13
ScaleMax
6.2834069019904e+13
ValidMin
15-Sep-1981 00:00:00.000
ValidMax
18-Feb-1991 23:59:59.999
FillValue
31-Dec-9999 23:59:59.999
Support
SupportQuantity
Temporal
Parameter #3
Name
VEFI measurement time
Set
Time series defined by using: VTIMEEPOCH
ParameterKey
vtime
Description

VEFI measurement time, expressed in tenths of milliseconds

Cadence
PT0.062S
RenderingHints
DisplayType
TimeSeries
AxisLabel
vtime (ms)
ValueFormat
I9
ValidMin
0
ValidMax
86400000
FillValue
-1
Support
SupportQuantity
Temporal
Parameter #4
Name
MAGB measurement time
Set
Time series defined by using: MTIMEEPOCH
ParameterKey
mtime
Description

MAGB measurement time, expressed in tenths of milliseconds

Cadence
PT0.062S
RenderingHints
DisplayType
TimeSeries
AxisLabel
mtime (ms)
ValueFormat
I9
ValidMin
0
ValidMax
86400000
FillValue
-1
Support
SupportQuantity
Temporal
Parameter #5
Name
VEFI Electric Field x-component, Spacecraft Cartesian coordinates
Set
Time series defined by using: VTIMEEPOCH
ParameterKey
ex
Description

VEFI Electric Field x-component, Ex, Spacecraft, SC, Cartesian coordinates

Cadence
PT0.062S
Units
µV/m
UnitsConversion
1.0e-6>V/m
CoordinateSystem
CoordinateRepresentation
Cartesian
CoordinateSystemName
SC
RenderingHints
DisplayType
TimeSeries
AxisLabel
EX
ValueFormat
E12.5
ValidMin
-1.0e+10
ValidMax
1.0e+10
FillValue
-1.0e-31
Field
Qualifier
Component.I
FieldQuantity
Electric
Parameter #6
Name
VEFI Electric Field y-component, Spacecraft Cartesian coordinates
Set
Time series defined by using: VTIMEEPOCH
ParameterKey
ey
Description

VEFI Electric Field y-component, Ey, Spacecraft, SC, Cartesian coordinates

Cadence
PT0.062S
Units
µV/m
UnitsConversion
1.0e-6>V/m
CoordinateSystem
CoordinateRepresentation
Cartesian
CoordinateSystemName
SC
RenderingHints
DisplayType
TimeSeries
AxisLabel
EY
ValueFormat
E12.5
ValidMin
-1.0e+10
ValidMax
1.0e+10
FillValue
-1.0e-31
Field
Qualifier
Component.J
FieldQuantity
Electric
Parameter #7
Name
MAGB Magnetic Field x-component, Spacecraft Cartesian coordinates
Set
Time series defined by using: MTIMEEPOCH
ParameterKey
bx
Description

MAGB Magnetic Field x-component, Bx, Spacecraft, SC, Cartesian coordinates

Cadence
PT0.062S
Units
nT
UnitsConversion
1.0e-9>T
CoordinateSystem
CoordinateRepresentation
Cartesian
CoordinateSystemName
SC
RenderingHints
DisplayType
TimeSeries
AxisLabel
BX
ValueFormat
E12.5
ValidMin
-1.0e+10
ValidMax
1.0e+10
FillValue
-1.0e-31
Field
Qualifier
Component.I
FieldQuantity
Magnetic
Parameter #8
Name
MAGB Magnetic Field y-component, Spacecraft Cartesian coordinates
Set
Time series defined by using: MTIMEEPOCH
ParameterKey
by
Description

MAGB Magnetic Field y-component, By, Spacecraft, SC, Cartesian coordinates

Cadence
PT0.062S
Units
nT
UnitsConversion
1.0e-9>T
CoordinateSystem
CoordinateRepresentation
Cartesian
CoordinateSystemName
SC
RenderingHints
DisplayType
TimeSeries
AxisLabel
BY
ValueFormat
E12.5
ValidMin
-1.0e+10
ValidMax
1.0e+10
FillValue
-1.0e-31
Field
Qualifier
Component.J
FieldQuantity
Magnetic
Parameter #9
Name
MAGB Magnetic Field z-component, Spacecraft Cartesian coordinates
Set
Time series defined by using: MTIMEEPOCH
ParameterKey
bz
Description

MAGB Magnetic Field z-component, Bz, Spacecraft, SC, Cartesian coordinates

Cadence
PT0.062S
Units
nT
UnitsConversion
1.0e-9>T
CoordinateSystem
CoordinateRepresentation
Cartesian
CoordinateSystemName
SC
RenderingHints
DisplayType
TimeSeries
AxisLabel
BZ
ValueFormat
E12.5
ValidMin
-1.0e+10
ValidMax
1.0e+10
FillValue
-1.0e-31
Field
Qualifier
Component.K
FieldQuantity
Magnetic
Parameter #10
Name
Model Magnetic Field x-component, Spacecraft Cartesian coordinates
Set
Time series defined by using: MTIMEEPOCH
ParameterKey
bxm
Description

Model Magnetic Field x-component, Bx, Spacecraft, SC, Cartesian coordinates

Cadence
PT0.062S
Units
nT
UnitsConversion
1.0e-9>T
CoordinateSystem
CoordinateRepresentation
Cartesian
CoordinateSystemName
SC
RenderingHints
DisplayType
TimeSeries
AxisLabel
BXM
ValueFormat
E12.5
ValidMin
-1.0e+10
ValidMax
1.0e+10
FillValue
-1.0e-31
Field
Qualifier
Component.I
FieldQuantity
Magnetic
Parameter #11
Name
Model Magnetic Field y-component, Spacecraft Cartesian coordinates
Set
Time series defined by using: MTIMEEPOCH
ParameterKey
bym
Description

Model Magnetic Field y-component, By, Spacecraft, SC, Cartesian coordinates

Cadence
PT0.062S
Units
nT
UnitsConversion
1.0e-9>T
CoordinateSystem
CoordinateRepresentation
Cartesian
CoordinateSystemName
SC
RenderingHints
DisplayType
TimeSeries
AxisLabel
BYM
ValueFormat
E12.5
ValidMin
-1.0e+10
ValidMax
1.0e+10
FillValue
-1.0e-31
Field
Qualifier
Component.J
FieldQuantity
Magnetic
Parameter #12
Name
Model Magnetic Field z-component, Spacecraft Cartesian coordinates
Set
Time series defined by using: MTIMEEPOCH
ParameterKey
bzm
Description

Model Magnetic Field z-component, Bz, Spacecraft, SC, Cartesian coordinates

Cadence
PT0.062S
Units
nT
UnitsConversion
1.0e-9>T
CoordinateSystem
CoordinateRepresentation
Cartesian
CoordinateSystemName
SC
RenderingHints
DisplayType
TimeSeries
AxisLabel
BZ
ValueFormat
E12.5
ValidMin
-1.0e+10
ValidMax
1.0e+10
FillValue
-1.0e-31
Field
Qualifier
Component.K
FieldQuantity
Magnetic
Parameter #13
Name
Spacecraft Position, Latitude, Geographic spherical coordinates
Set
Time series defined by using: VTIMEEPOCH
ParameterKey
glat
Description

Spacecraft Position, Latitude, Geographic, GEO, spherical coordinates

Cadence
PT0.062S
Units
°
UnitsConversion
0.0174532925>rad
CoordinateSystem
CoordinateRepresentation
Spherical
CoordinateSystemName
GEO
RenderingHints
DisplayType
TimeSeries
AxisLabel
Geog Latitude
ValueFormat
F6.2
ValidMin
-90.0
ValidMax
90.0
FillValue
-1.0e-31
Support
Qualifier
DirectionAngle.ElevationAngle
SupportQuantity
Positional
Parameter #14
Name
Spacecraft Position, Longitude, Geographic spherical coordinates
Set
Time series defined by using: VTIMEEPOCH
ParameterKey
glon
Description

Spacecraft Position, Longitude, Geographic, GEO, spherical coordinates

Cadence
PT0.062S
Units
°
UnitsConversion
0.0174532925>rad
CoordinateSystem
CoordinateRepresentation
Spherical
CoordinateSystemName
GEO
RenderingHints
DisplayType
TimeSeries
AxisLabel
Geog Longitude
ValueFormat
F6.2
ValidMin
-180.0
ValidMax
180.0
FillValue
-1.0e-31
Support
Qualifier
DirectionAngle.AzimuthAngle
SupportQuantity
Positional
Parameter #15
Name
Spacecraft Position, Invariant Latitude
Set
Time series defined by using: VTIMEEPOCH
ParameterKey
ilat
Description

Spacecraft Position, Invariant Latitude

Cadence
PT0.062S
Units
°
UnitsConversion
0.0174532925>rad
CoordinateSystem
CoordinateRepresentation
Spherical
CoordinateSystemName
MAG
RenderingHints
DisplayType
TimeSeries
AxisLabel
Inv Lat
ValueFormat
F7.2
ValidMin
-90.0
ValidMax
90.0
FillValue
-1.0e-31
Support
Qualifier
DirectionAngle.ElevationAngle
SupportQuantity
Positional
Parameter #16
Name
Spacecraft Position, Magnetic Local Time
Set
Time series defined by using: VTIMEEPOCH
ParameterKey
mlt
Description

Spacecraft Position, Magnetic Local Time, MLT

Cadence
PT0.062S
Units
h
UnitsConversion
3600>s
CoordinateSystem
CoordinateRepresentation
Spherical
CoordinateSystemName
MAG
RenderingHints
DisplayType
TimeSeries
AxisLabel
MLT
ValueFormat
F5.2
ValidMin
0.0
ValidMax
24.0
FillValue
-1.0e-31
Support
Qualifier
DirectionAngle.AzimuthAngle
SupportQuantity
Positional
Parameter #17
Name
Spacecraft Position, Altitude
Set
Time series defined by using: VTIMEEPOCH
ParameterKey
alt
Description

Spacecraft Position, Altitude

Cadence
PT0.062S
Units
km
UnitsConversion
1.0e3>m
RenderingHints
DisplayType
TimeSeries
AxisLabel
Altitude
ValueFormat
F7.2
ValidMin
0.0
ValidMax
10000.0
FillValue
-1.0e-31
Support
Qualifier
Magnitude
Qualifier
Scalar
SupportQuantity
Positional