2.5.0
spase://NASA/NumericalData/MMS/2/Ephemeris/Burst/Level2/Tsyganenko_89_Quiet/PT0.030S
MMS 2 Magnetic Ephemeris and Coordinates (MEC) and Support (Tsyganenko 1989 model, Quiet conditions), Level 2 (L2), Burst Mode, 30 ms Data
MMS2_MEC_BRST_L2_EPHT89Q
https://doi.org/10.48322/edy0-fc92
2023-03-04T12:34:56.789
2021-04-27T15:38:11
Only known prior ReleaseDate of the metadata
2022-08-04T12:34:56.789
Added DOI and PublicationInfo minted by LFB, updated the RepositoryID, updated the SPDF MetadataContact Person to Robert M. Candey, metadata updated to SPASE 2.4.1, reviewed by LFB 20220803
2023-03-04T12:34:56.789
Standardized the ResourceName Format, Set AlternateName equal to the ProductKey, Revised the Acknowledgement, PublicationInfo Authors, and Contact Person list per request of the MMS MEC team, metadata updated to SPASE 2.5.0, reviewed by LFB 20230304
Magnetospheric Multiscale 2 (MMS 2) spacecraft position, velocity, attitude, angular momentum vector, and magnetic ephemeris and coordinates (MEC), Level-2 science data at Burst (30 ms) time resolution. The Magnetic ephemeris data are calculated by using the Tsyganenko 1989 magnetic field model for quiet magnetospheric conditions. Many variables are included in this data product including the magnetic field measured at the spacecraft. If possible, the northern and southern hemisphere footpoints of the spacecraft are found by tracing along the magnetic field line threading through the spacecraft per the given Tsyganenko and internal magnetic field models. The northern and southern hemisphere loss cone angles are also given. The magnetic field strength at the footpoints and the minimum magnetic field strength along the field line are also calculated by using the field models. Other variables list the spacecraft L-shell, the magnetic local time, the magnetic latitude and longitude, and whether the threading field line is open, closed, etc. Rotational quaternions are provided to allow coordinate transformation from GEI into 11 other coordinate systems including BSC, GEO, GSE, GSE2000, GSE, and SM. The list of ancillary variables includes the dipole tilt angle, the Dst and Kp actvity indices, and separate flags that denote satellite eclipse by the Earth and Moon.
Please acknowledge M.G. Henderson, S.K. Morley, and J.L. Burch for use of these data
Henderson, Michael, G.; Morley, Steven, Karl; Burch, James, L.
2022-01-01T00:00:00
NASA Space Physics Data Facility
spase://SMWG/Person/Michael.G.Henderson
TeamLeader
spase://SMWG/Person/Steven.Karl.Morley
TechnicalContact
spase://SMWG/Person/James.L.Burch
PrincipalInvestigator
spase://SMWG/Person/MMS_SDC_POC
HostContact
spase://SMWG/Person/Robert.M.Candey
MetadataContact
spase://SMWG/Person/Lee.Frost.Bargatze
MetadataContact
The Magnetospheric Multiscale (MMS) Mission home page at Goddard Space Flight Center (GSFC)
https://mms.gsfc.nasa.gov/
MMS homepage
Data Caveats and Current Release Notes at LASP MMS SDC
https://lasp.colorado.edu/mms/sdc/public/datasets/mec/
The Magnetospheric Multiscale (MMS) Mission home page hosted by the Laboratory of Atmospheric and Space Physics, Science Data Center (LASP, SDC) at the University of Colorado, Boulder.
spase://VSPO/NumericalData/MMS/2/Ephemeris/Burst/Level2/Tsyganenko_89_Quiet/PT0.030S
spase://SMWG/Repository/UCOLO/LASP/MMS_SDC
Online
Open
FTPS from the MMS SDC (not with most browsers)
ftps://lasp.colorado.edu/mms/sdc/public/data/mms2/mec/brst/l2/epht89q/
In CDF via ftp from the MMS Science Data Center
HTTPS from the MMS SDC
https://lasp.colorado.edu/mms/sdc/public/data/mms2/mec/brst/l2/epht89q/
In CDF via http from the MMS Science Data Center
CDF
None
Please acknowledge M.G. Henderson, S.K. Morley, and J.L. Burch. Also please acknowledge the data providers and CDAWeb when using these data.
spase://SMWG/Repository/NASA/GSFC/SPDF/CDAWeb
Online
Open
FTPS from SPDF (not with most browsers)
ftps://spdf.gsfc.nasa.gov/pub/data/mms/mms2/mec/brst/l2/epht89q/
In CDF via ftp from SPDF
HTTPS from SPDF
https://spdf.gsfc.nasa.gov/pub/data/mms/mms2/mec/brst/l2/epht89q/
In CDF via http from SPDF
CDAWeb
https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=MMS2_MEC_BRST_L2_EPHT89Q&index=sp_phys
MMS2_MEC_BRST_L2_EPHT89Q
Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb
CDF
None
Please acknowledge M.G. Henderson, S.K. Morley, and J.L. Burch. Also please acknowledge the data providers and CDAWeb when using these data.
spase://SMWG/Repository/NASA/GSFC/SPDF/CDAWeb
Online
Open
CDAWeb HAPI Server
https://cdaweb.gsfc.nasa.gov/hapi
MMS2_MEC_BRST_L2_EPHT89Q
Web Service to this product using the HAPI interface
CSV
Please acknowledge M.G. Henderson, S.K. Morley, and J.L. Burch. Also please acknowledge the data providers and CDAWeb when using these data.
Calibrated
spase://SMWG/Instrument/MMS/2/Ephemeris
ActivityIndex
Ephemeris
MagneticField
2016-01-31T00:18:35
-P3M
PT0.030S
Earth.Magnetosheath
Earth.Magnetosphere
Earth.Magnetosphere.Magnetotail
Earth.Magnetosphere.Main
Earth.Magnetosphere.RadiationBelt
Earth.NearSurface.EquatorialRegion
Earth.NearSurface.Plasmasphere
Heliosphere.NearEarth
Epoch
Epoch
Epoch
This parameter exhibits an increasing monotonic progression.
PT0.030S
ns
1.0e-9>s
i29
LinearScale
1990-01-01T00:00:00.000000000
2100-01-01T00:00:00.000000000
9999-12-31T23:59:59.999999999
Temporal
mms2_mec_dipole_tilt
Time series defined by using: EPOCH
mms2_mec_dipole_tilt
mms2_mec_dipole_tilt
PT0.030S
°
0.0174532925>rad
mms2_mec_dipole_tilt
f18.6
LinearScale
-40.0
40.0
-1.0e+31
DirectionAngle.PolarAngle
Other
mms2_mec_gmst
Time series defined by using: EPOCH
mms2_mec_gmst
mms2_mec_gmst
PT0.030S
°
0.0174532925>rad
mms2_mec_gmst
f18.6
LinearScale
-360.0
360.0
-1.0e+31
DirectionAngle.AzimuthAngle
Temporal
mms2_mec_mlat
Time series defined by using: EPOCH
mms2_mec_mlat
mms2_mec_mlat
PT0.030S
°
0.0174532925>rad
Spherical
SM
mms2_mec_mlat
f18.6
LinearScale
-90.0
90.0
-1.0e+31
DirectionAngle.AzimuthAngle
Positional
mms2_mec_mlt
Time series defined by using: EPOCH
mms2_mec_mlt
mms2_mec_mlt
PT0.030S
h
0.2617993877>rad
Spherical
SM
mms2_mec_mlt
f18.6
LinearScale
0.0
24.0
-1.0e+31
DirectionAngle.AzimuthAngle
Positional
mms2_mec_l_dipole
Time series defined by using: EPOCH
mms2_mec_l_dipole
mms2_mec_l_dipole
PT0.030S
mms2_mec_l_dipole
f18.6
LinearScale
0.0
24.0
-1.0e+31
Positional
mms2_mec_quat_eci_to_bcs
Time series defined by using: EPOCH
mms2_mec_quat_eci_to_bcs
mms2_mec_quat_eci_to_bcs
PT0.030S
Cartesian
GEI
TimeSeries
f18.6
LinearScale
4
mms2_quat_eci_to_bcs_qx
1
mms2_quat_eci_to_bcs_qy
2
mms2_quat_eci_to_bcs_qz
3
mms2_quat_eci_to_bcs_qw
4
-100000.0
100000.0
-1.0e+31
Other
mms2_mec_quat_eci_to_dbcs
Time series defined by using: EPOCH
mms2_mec_quat_eci_to_dbcs
mms2_mec_quat_eci_to_dbcs
PT0.030S
Cartesian
GEI
TimeSeries
f18.6
LinearScale
4
mms2_quat_eci_to_dbcs_qx
1
mms2_quat_eci_to_dbcs_qy
2
mms2_quat_eci_to_dbcs_qz
3
mms2_quat_eci_to_dbcs_qw
4
-100000.0
100000.0
-1.0e+31
Other
mms2_mec_quat_eci_to_dmpa
Time series defined by using: EPOCH
mms2_mec_quat_eci_to_dmpa
mms2_mec_quat_eci_to_dmpa
PT0.030S
Cartesian
GEI
TimeSeries
f18.6
LinearScale
4
mms2_quat_eci_to_dmpa_qx
1
mms2_quat_eci_to_dmpa_qy
2
mms2_quat_eci_to_dmpa_qz
3
mms2_quat_eci_to_dmpa_qw
4
-100000.0
100000.0
-1.0e+31
Other
mms2_mec_quat_eci_to_smpa
Time series defined by using: EPOCH
mms2_mec_quat_eci_to_smpa
mms2_mec_quat_eci_to_smpa
PT0.030S
Cartesian
GEI
TimeSeries
f18.6
LinearScale
4
mms2_quat_eci_to_smpa_qx
1
mms2_quat_eci_to_smpa_qy
2
mms2_quat_eci_to_smpa_qz
3
mms2_quat_eci_to_smpa_qw
4
-100000.0
100000.0
-1.0e+31
Other
mms2_mec_quat_eci_to_dsl
Time series defined by using: EPOCH
mms2_mec_quat_eci_to_dsl
mms2_mec_quat_eci_to_dsl
PT0.030S
Cartesian
GEI
TimeSeries
f18.6
LinearScale
4
mms2_quat_eci_to_dsl_qx
1
mms2_quat_eci_to_dsl_qy
2
mms2_quat_eci_to_dsl_qz
3
mms2_quat_eci_to_dsl_qw
4
-100000.0
100000.0
-1.0e+31
Other
mms2_mec_quat_eci_to_ssl
Time series defined by using: EPOCH
mms2_mec_quat_eci_to_ssl
mms2_mec_quat_eci_to_ssl
PT0.030S
Cartesian
GEI
TimeSeries
f18.6
LinearScale
4
mms2_quat_eci_to_ssl_qx
1
mms2_quat_eci_to_ssl_qy
2
mms2_quat_eci_to_ssl_qz
3
mms2_quat_eci_to_ssl_qw
4
-100000.0
100000.0
-1.0e+31
Other
mms2_mec_L_vec
Time series defined by using: EPOCH
mms2_mec_L_vec
mms2_mec_L_vec
PT0.030S
°
0.0174532925>rad
Spherical
GEI
TimeSeries
f18.6
LinearScale
2
mms2_L_vec_RA
1
mms2_L_vec_DEC
2
-360.0
360.0
-1.0e+31
DirectionAngle
Positional
mms2_mec_Z_vec
Time series defined by using: EPOCH
mms2_mec_Z_vec
mms2_mec_Z_vec
PT0.030S
°
0.0174532925>rad
Spherical
GEI
TimeSeries
f18.6
LinearScale
2
mms2_Z_vec_RA
1
mms2_Z_vec_DEC
2
-360.0
360.0
-1.0e+31
DirectionAngle
Positional
mms2_mec_P_vec
Time series defined by using: EPOCH
mms2_mec_P_vec
mms2_mec_P_vec
PT0.030S
°
0.0174532925>rad
Spherical
GEI
TimeSeries
f18.6
LinearScale
2
mms2_P_vec_RA
1
mms2_P_vec_DEC
2
-360.0
360.0
-1.0e+31
DirectionAngle
Positional
mms2_mec_L_phase
Time series defined by using: EPOCH
mms2_mec_L_phase
mms2_mec_L_phase
PT0.030S
°
0.0174532925>rad
Spherical
GEI
TimeSeries
mms2_mec_L_phase
f18.6
LinearScale
0.0
360.0
-1.0e+31
DirectionAngle
Positional
mms2_mec_Z_phase
Time series defined by using: EPOCH
mms2_mec_Z_phase
mms2_mec_Z_phase
PT0.030S
°
0.0174532925>rad
Spherical
GEI
TimeSeries
mms2_mec_Z_phase
f18.6
LinearScale
0.0
360.0
-1.0e+31
DirectionAngle
Positional
mms2_mec_P_phase
Time series defined by using: EPOCH
mms2_mec_P_phase
mms2_mec_P_phase
PT0.030S
°
0.0174532925>rad
Spherical
GEI
TimeSeries
mms2_mec_P_phase
f18.6
LinearScale
0.0
360.0
-1.0e+31
DirectionAngle
Positional
mms2_mec_kp
Time series defined by using: EPOCH
mms2_mec_kp
mms2_mec_kp
PT0.030S
Kp
f18.6
LinearScale
0.0
9.0
-1.0e+31
Magnetic
mms2_mec_dst
Time series defined by using: EPOCH
mms2_mec_dst
mms2_mec_dst
PT0.030S
nT
1.0e9>T
Dst
f18.6
LinearScale
-10000.0
10000.0
-1.0e+31
Magnetic
mms2_mec_earth_eclipse_flag
Time series defined by using: EPOCH
mms2_mec_earth_eclipse_flag
mms2_mec_earth_eclipse_flag
This parameter exhibits an increasing monotonic progression.
PT0.030S
mms2_mec_earth_eclipse_flag
i1
LinearScale
0
2
-1
Other
mms2_mec_moon_eclipse_flag
Time series defined by using: EPOCH
mms2_mec_moon_eclipse_flag
mms2_mec_moon_eclipse_flag
This parameter exhibits an increasing monotonic progression.
PT0.030S
mms2_mec_moon_eclipse_flag
i1
LinearScale
0
2
-1
Other
mms2_mec_r_eci
Time series defined by using: EPOCH
mms2_mec_r_eci
mms2_mec_r_eci
PT0.030S
km
1.0e3>m
Cartesian
GEI
TimeSeries
f18.6
LinearScale
3
mms2_r_eci_x
1
mms2_r_eci_y
2
mms2_r_eci_z
3
-100000.0
100000.0
-1.0e+31
Vector
Positional
mms2_mec_v_eci
Time series defined by using: EPOCH
mms2_mec_v_eci
mms2_mec_v_eci
PT0.030S
km/s
1.0e3>m/s
Cartesian
GEI
TimeSeries
f18.6
LinearScale
3
mms2_v_eci_x
1
mms2_v_eci_y
2
mms2_v_eci_z
3
-100000.0
100000.0
-1.0e+31
Vector
Velocity
mms2_mec_r_gsm
Time series defined by using: EPOCH
mms2_mec_r_gsm
mms2_mec_r_gsm
PT0.030S
km
1.0e3>m
Cartesian
GSM
TimeSeries
f18.6
LinearScale
3
mms2_r_gsm_x
1
mms2_r_gsm_y
2
mms2_r_gsm_z
3
-100000.0
100000.0
-1.0e+31
Vector
Positional
mms2_mec_v_gsm
Time series defined by using: EPOCH
mms2_mec_v_gsm
mms2_mec_v_gsm
PT0.030S
km/s
1.0e3>m/s
Cartesian
GSM
TimeSeries
f18.6
LinearScale
3
mms2_v_gsm_x
1
mms2_v_gsm_y
2
mms2_v_gsm_z
3
-100000.0
100000.0
-1.0e+31
Vector
Velocity
mms2_mec_quat_eci_to_gsm
Time series defined by using: EPOCH
mms2_mec_quat_eci_to_gsm
mms2_mec_quat_eci_to_gsm
PT0.030S
Cartesian
GEI
TimeSeries
f18.6
LinearScale
4
mms2_quat_eci_to_gsm_qx
1
mms2_quat_eci_to_gsm_qy
2
mms2_quat_eci_to_gsm_qz
3
mms2_quat_eci_to_gsm_qw
4
-100000.0
100000.0
-1.0e+31
Other
mms2_mec_r_geo
Time series defined by using: EPOCH
mms2_mec_r_geo
mms2_mec_r_geo
PT0.030S
km
1.0e3>m
Cartesian
GEO
TimeSeries
f18.6
LinearScale
3
mms2_r_geo_x
1
mms2_r_geo_y
2
mms2_r_geo_z
3
-100000.0
100000.0
-1.0e+31
Vector
Positional
mms2_mec_v_geo
Time series defined by using: EPOCH
mms2_mec_v_geo
mms2_mec_v_geo
PT0.030S
km/s
1.0e3>m/s
Cartesian
GEO
TimeSeries
f18.6
LinearScale
3
mms2_v_geo_x
1
mms2_v_geo_y
2
mms2_v_geo_z
3
-100000.0
100000.0
-1.0e+31
Vector
Velocity
mms2_mec_quat_eci_to_geo
Time series defined by using: EPOCH
mms2_mec_quat_eci_to_geo
mms2_mec_quat_eci_to_geo
PT0.030S
Cartesian
GEI
TimeSeries
f18.6
LinearScale
4
mms2_quat_eci_to_geo_qx
1
mms2_quat_eci_to_geo_qy
2
mms2_quat_eci_to_geo_qz
3
mms2_quat_eci_to_geo_qw
4
-100000.0
100000.0
-1.0e+31
Other
mms2_mec_r_sm
Time series defined by using: EPOCH
mms2_mec_r_sm
mms2_mec_r_sm
PT0.030S
km
1.0e3>m
Cartesian
SM
TimeSeries
f18.6
LinearScale
3
mms2_r_sm_x
1
mms2_r_sm_y
2
mms2_r_sm_z
3
-100000.0
100000.0
-1.0e+31
Vector
Positional
mms2_mec_v_sm
Time series defined by using: EPOCH
mms2_mec_v_sm
mms2_mec_v_sm
PT0.030S
km/s
1.0e3>m/s
Cartesian
SM
TimeSeries
f18.6
LinearScale
3
mms2_v_sm_x
1
mms2_v_sm_y
2
mms2_v_sm_z
3
-100000.0
100000.0
-1.0e+31
Vector
Velocity
mms2_mec_quat_eci_to_sm
Time series defined by using: EPOCH
mms2_mec_quat_eci_to_sm
mms2_mec_quat_eci_to_sm
PT0.030S
Cartesian
GEI
TimeSeries
f18.6
LinearScale
4
mms2_quat_eci_to_sm_qx
1
mms2_quat_eci_to_sm_qy
2
mms2_quat_eci_to_sm_qz
3
mms2_quat_eci_to_sm_qw
4
-100000.0
100000.0
-1.0e+31
Other
mms2_mec_r_gse
Time series defined by using: EPOCH
mms2_mec_r_gse
mms2_mec_r_gse
PT0.030S
km
1.0e3>m
Cartesian
GSE
TimeSeries
f18.6
LinearScale
3
mms2_r_gse_x
1
mms2_r_gse_y
2
mms2_r_gse_z
3
-100000.0
100000.0
-1.0e+31
Vector
Positional
mms2_mec_v_gse
Time series defined by using: EPOCH
mms2_mec_v_gse
mms2_mec_v_gse
PT0.030S
km/s
1.0e3>m/s
Cartesian
GSE
TimeSeries
f18.6
LinearScale
3
mms2_v_gse_x
1
mms2_v_gse_y
2
mms2_v_gse_z
3
-100000.0
100000.0
-1.0e+31
Vector
Velocity
mms2_mec_quat_eci_to_gse
Time series defined by using: EPOCH
mms2_mec_quat_eci_to_gse
mms2_mec_quat_eci_to_gse
PT0.030S
Cartesian
GEI
TimeSeries
f18.6
LinearScale
4
mms2_quat_eci_to_gse_qx
1
mms2_quat_eci_to_gse_qy
2
mms2_quat_eci_to_gse_qz
3
mms2_quat_eci_to_gse_qw
4
-100000.0
100000.0
-1.0e+31
Other
mms2_mec_r_gse2000
Time series defined by using: EPOCH
mms2_mec_r_gse2000
mms2_mec_r_gse2000
PT0.030S
km
1.0e3>m
Cartesian
GSE
TimeSeries
f18.6
LinearScale
3
mms2_r_gse2000_x
1
mms2_r_gse2000_y
2
mms2_r_gse2000_z
3
-100000.0
100000.0
-1.0e+31
Vector
Positional
mms2_mec_v_gse2000
Time series defined by using: EPOCH
mms2_mec_v_gse2000
mms2_mec_v_gse2000
PT0.030S
km/s
1.0e3>m/s
Cartesian
GSE
TimeSeries
f18.6
LinearScale
3
mms2_v_gse2000_x
1
mms2_v_gse2000_y
2
mms2_v_gse2000_z
3
-100000.0
100000.0
-1.0e+31
Vector
Velocity
mms2_mec_quat_eci_to_gse2000
Time series defined by using: EPOCH
mms2_mec_quat_eci_to_gse2000
mms2_mec_quat_eci_to_gse2000
PT0.030S
Cartesian
GEI
TimeSeries
f18.6
LinearScale
4
mms2_quat_eci_to_gse2000_qx
1
mms2_quat_eci_to_gse2000_qy
2
mms2_quat_eci_to_gse2000_qz
3
mms2_quat_eci_to_gse2000_qw
4
-100000.0
100000.0
-1.0e+31
Other
mms2_mec_geod_lat
Time series defined by using: EPOCH
mms2_mec_geod_lat
mms2_mec_geod_lat
PT0.030S
°
0.0174532925>rad
Spherical
WGS84
mms2_mec_geod_lat
f18.6
LinearScale
-90.0
90.0
-1.0e+31
DirectionAngle.ElevationAngle
Positional
mms2_mec_geod_lon
Time series defined by using: EPOCH
mms2_mec_geod_lon
mms2_mec_geod_lon
PT0.030S
°
0.0174532925>rad
Spherical
WGS84
mms2_mec_geod_lon
f18.6
LinearScale
-180.0
180.0
-1.0e+31
DirectionAngle.AzimuthAngle
Positional
mms2_mec_geod_height
Time series defined by using: EPOCH
mms2_mec_geod_height
mms2_mec_geod_height
PT0.030S
km
1.0e3>m
Spherical
WGS84
mms2_mec_geod_height
f18.6
LinearScale
0.0
100000.0
-1.0e+31
Positional
mms2_mec_r_sun_de421_eci
Time series defined by using: EPOCH
mms2_mec_r_sun_de421_eci
mms2_mec_r_sun_de421_eci
PT0.030S
km
1.0e3>m
Cartesian
GEI
TimeSeries
f18.6
LinearScale
3
mms2_r_sun_de421_eci_x
1
mms2_r_sun_de421_eci_y
2
mms2_r_sun_de421_eci_z
3
-2.0e+08
2.0e+08
-1.0e+31
Vector
Positional
mms2_mec_r_moon_de421_eci
Time series defined by using: EPOCH
mms2_mec_r_moon_de421_eci
mms2_mec_r_moon_de421_eci
PT0.030S
km
1.0e3>m
Cartesian
GEI
TimeSeries
f18.6
LinearScale
3
mms2_r_moon_de421_eci_x
1
mms2_r_moon_de421_eci_y
2
mms2_r_moon_de421_eci_z
3
-500000.0
500000.0
-1.0e+31
Vector
Positional
mms2_mec_int_model
mms2_mec_int_model
mms2_mec_int_model
PT0.030S
a30
Other
mms2_mec_ext_model
mms2_mec_ext_model
mms2_mec_ext_model
PT0.030S
a30
Other
mms2_mec_fieldline_type
Time series defined by using: EPOCH
mms2_mec_fieldline_type
mms2_mec_fieldline_type
This parameter exhibits an increasing monotonic progression.
PT0.030S
mms2_mec_fieldline_type
i2
LinearScale
-3
3
-32768
Other
mms2_mec_bsc_gsm
Time series defined by using: EPOCH
mms2_mec_bsc_gsm
mms2_mec_bsc_gsm
PT0.030S
nT
1.0e9>T
Cartesian
GSM
TimeSeries
f18.6
LinearScale
4
mms2_bsc_gsm_x
1
mms2_bsc_gsm_y
2
mms2_bsc_gsm_z
3
mms2_bsc_gsm_mag
4
-100000.0
100000.0
-1.0e+31
Magnetic
mms2_mec_loss_cone_angle_s
Time series defined by using: EPOCH
mms2_mec_loss_cone_angle_s
mms2_mec_loss_cone_angle_s
PT0.030S
°
0.0174532925>rad
mms2_mec_loss_cone_angle_s
f18.6
LinearScale
-40.0
40.0
-1.0e+31
DirectionAngle.PolarAngle
Positional
mms2_mec_loss_cone_angle_n
Time series defined by using: EPOCH
mms2_mec_loss_cone_angle_n
mms2_mec_loss_cone_angle_n
PT0.030S
°
0.0174532925>rad
mms2_mec_loss_cone_angle_n
f18.6
LinearScale
-40.0
40.0
-1.0e+31
DirectionAngle.PolarAngle
Positional
mms2_mec_pfs_geod_latlon
Time series defined by using: EPOCH
mms2_mec_pfs_geod_latlon
mms2_mec_pfs_geod_latlon
PT0.030S
°
0.0174532925>rad
Spherical
WGS84
TimeSeries
f18.6
LinearScale
2
mms2_pfs_geod_lat
1
mms2_pfs_geod_lon
2
-180.0
180.0
-1.0e+31
DirectionAngle
Positional
mms2_mec_pfn_geod_latlon
Time series defined by using: EPOCH
mms2_mec_pfn_geod_latlon
mms2_mec_pfn_geod_latlon
PT0.030S
°
0.0174532925>rad
Spherical
WGS84
TimeSeries
f18.6
LinearScale
2
mms2_pfn_geod_lat
1
mms2_pfn_geod_lon
2
-180.0
180.0
-1.0e+31
DirectionAngle
Positional
mms2_mec_pfs_gsm
Time series defined by using: EPOCH
mms2_mec_pfs_gsm
mms2_mec_pfs_gsm
PT0.030S
km
1.0e3>m
Cartesian
GSM
TimeSeries
f18.6
LinearScale
3
mms2_pfs_gsm_x
1
mms2_pfs_gsm_y
2
mms2_pfs_gsm_z
3
-100000.0
100000.0
-1.0e+31
Vector
Positional
mms2_mec_bfs_gsm
Time series defined by using: EPOCH
mms2_mec_bfs_gsm
mms2_mec_bfs_gsm
PT0.030S
nT
1.0e9>T
Cartesian
GSM
TimeSeries
f18.6
LinearScale
4
mms2_bfs_gsm_x
1
mms2_bfs_gsm_y
2
mms2_bfs_gsm_z
3
mms2_bfs_gsm_mag
4
-100000.0
100000.0
-1.0e+31
Magnetic
mms2_mec_pfn_gsm
Time series defined by using: EPOCH
mms2_mec_pfn_gsm
mms2_mec_pfn_gsm
PT0.030S
km
1.0e3>m
Cartesian
GSM
TimeSeries
f18.6
LinearScale
3
mms2_pfn_gsm_x
1
mms2_pfn_gsm_y
2
mms2_pfn_gsm_z
3
-100000.0
100000.0
-1.0e+31
Vector
Positional
mms2_mec_bfn_gsm
Time series defined by using: EPOCH
mms2_mec_bfn_gsm
mms2_mec_bfn_gsm
PT0.030S
nT
1.0e9>T
Cartesian
GSM
TimeSeries
f18.6
LinearScale
4
mms2_bfn_gsm_x
1
mms2_bfn_gsm_y
2
mms2_bfn_gsm_z
3
mms2_bfn_gsm_mag
4
-100000.0
100000.0
-1.0e+31
Magnetic
mms2_mec_pmin_gsm
Time series defined by using: EPOCH
mms2_mec_pmin_gsm
mms2_mec_pmin_gsm
PT0.030S
km
1.0e3>m
Cartesian
GSM
TimeSeries
f18.6
LinearScale
3
mms2_pmin_gsm_x
1
mms2_pmin_gsm_y
2
mms2_pmin_gsm_z
3
-100000.0
100000.0
-1.0e+31
Vector
Positional
mms2_mec_bmin_gsm
Time series defined by using: EPOCH
mms2_mec_bmin_gsm
mms2_mec_bmin_gsm
PT0.030S
nT
1.0e9>T
Cartesian
GSM
TimeSeries
f18.6
LinearScale
4
mms2_bmin_gsm_x
1
mms2_bmin_gsm_y
2
mms2_bmin_gsm_z
3
mms2_bmin_gsm_mag
4
-100000.0
100000.0
-1.0e+31
Magnetic