1.2.0 spase://VHO/NumericalData/WIND/MFI/v4_PT03S WIND MFI Version 4 Data 2007-05-31T20:40:37Z WIND MFI composite data. The files contain multiple time resolution data: 3-second, 1-minute, and 1-hour. Calibrated science quality data. User will acknowledge the WIND MFI instrument team in any publication resulting from the use of these data. spase://nssdc/person/1878 PrincipalInvestigator spase://nssdc/person/57837 DataProducer WIND Magnetic Field Investigation (MFI) Home Page http://lepmfi.gsfc.nasa.gov A web site hosting instrument information as well as web utilities for plotting and downloading data spase://VHO/NumericalData/WIND/MFI/v3_PT03S spase://VHO/Repository/WIND/MFI Online Open Download of WIND MFI v4 data http://lepmfi.gsfc.nasa.gov/mfi/3sec/ver4/ A web site hosting the WIND MFI v4 data. CDF None WIND MFI v4 Data Level 2 4 spase://VHO/Instrument/WIND/MFI MagneticField 1994-11-12T16:00:00Z P0D Heliosphere.NearEarth Heliosphere.Inner Earth.Magnetosheath Earth.Magnetosphere Earth.Magnetosphere.Magnetotail Earth.Magnetosphere.Main Magnetic field Time Line (1 min) Epoch Number of milliseconds since the epoch 1994-11-12T00:00:00.000 PT01M ms 1.0e-3>s Scalar Epoch starts on 1994-11-12T00:00:00.000Z Temporal Time Line (1 min) Time_PB5 Time of observation in year, day of year, and milliseconds (1 min) PT01M Array 3 Year 1 Day of year 2 Miliseconds of day 3 Temporal Number of points in average (1 min) NUM_PTS Number of data points in one-minute average PT01M Scalar Other Magnetic field magnitude (1 min) BF1 Average of the magnetic field magnitudes (F1) This parameter is an average of high-time-resolution field magnitudes PT01M nT 1.0e-9>T Scalar Average Magnitude Magnetic Magnetic field magnitude's RMS (1 min) BRMSF1 RMS (standard deviation) of the average of the magnitudes (F1 RMS) PT01M nT 1.0e-9>T Scalar Deviation Magnitude Magnetic Magnetic field vector in GSM coordinates (1 min) BGSM Average (1 min) magnetic field vector in GSM coordinates PT01M nT 1.0e-9>T Cartesian GSM Vector 3 Bx X 1 By Y 2 Bz Z 3 Vector Average Magnetic RMS vector in GSM coordinates (1 min) BRMSGSM RMS mangetic field vector in GSM coordinates PT01M nT 1.0e-9>T Cartesian GSM Vector 3 RMS Bx X 1 RMS By Y 2 RMS Bz Z 3 Deviation Vector Magnetic Magnetic field vector in GSE coordinates (1 min) BGSE Average (1 min) magnetic field vector in GSE coordinates PT01M nT 1.0e-9>T Cartesian GSE Vector 3 Bx X 1 By Y 2 Bz Z 3 Average Vector Magnetic RMS vector in GSE coordinates (1 min) BRMSGSE RMS mangetic field vector in GSE coordinates PT01M nT 1.0e-9>T Cartesian GSE Vector 3 RMS Bx X 1 RMS By Y 2 RMS Bz Z 3 Deviation Vector Magnetic Radial distance (1 min) DIST Distance from the center of the Earth (Define Re=6378 km) PT01M Re 6.378e6>m Spherical GSE Scalar Radial distance R 1 Positional Position in GSM coordinates (1 min) PGSM Position vector in GSM coordinates (Define Re=6378 km) PT01M Re 6.378e6>m Cartesian GSM Vector 3 X X 1 Y Y 2 Z Z 3 Positional Position in GSE coordinates (1 min) PGSE Position vector in GSE coordinates (Define Re=6378 km) PT01M Re 6.378e6>m Cartesian GSE Vector 3 X X 1 Y Y 2 Z Z 3 Positional Unit spin vector in GSM coordinates (1 min) SGSM Unit spin vector in GSM coordinates PT01M unitless Cartesian GSM Vector 3 X X 1 Y Y 2 Z Z 3 Other Unit spin vector in GSE coordinates (1 min) SGSE Unit spin vector in GSE coordinates PT01M unitless Cartesian GSE Vector 3 X X 1 Y Y 2 Z Z 3 Other Delta B (Outer - Inner) (1 min) DB_SC Difference between outboard and inboard measured magnetic fields, Bouter - Binner (nT) in spacecraft coordinates. Contains meaningful data only in 1:1 mode (see MAG_MODE). PT01M nT 1.0e-9>T Cartesian SC Vector 3 DBx X 1 DBy Y 2 DBz Z 3 Vector Deviation Magnetic Dipole tilt angle (degrees) (1 min) TILTANG Dipole tilt angle (degrees) PT01M degree Scalar Other Average range inner magnetometer (1 min) RANGE_I Average range status of the inner magnetometer (1 min) PT01M unitless Scalar Other Average range outer magnetometer (1 min) RANGE_O Average range status of the outer magnetometer (1 min) PT01M unitless Scalar Other S/C operational mode (1 min) SPC_MODE Spacecraft operational mode (1 min) 1 - Science mode with normal telemetry rate (92 sec major frame) 3 - Maneuver mode normal telemetry rate - no useful data 4 - Contingency mode normal telemetry rate - no useful data 5 - Science mode with double telemetry rate (46 sec major frame) 7 - Maneuver mode double telemetry rate - no useful data 8 - Contingency mode double telemetry rate - no useful data PT01M unitless Scalar Other WIND/MFI operational mode (1 min) MAG_MODE WIND/MFI instrument operational mode (1 min)  0 - Primary to Secondary mag data collection rate ratio (1:1), Outboard mag primary with FFT & Snapshot data  1 - Primary to Secondary Ratio (20:1), Outboard primary with FFT & Snapshot  2 - Primary to Secondary Ratio (20:1), Outboard primary with Snapshot only  3 - Primary to Secondary Ratio (1:1), Outboard primary, Maneuver mode - no useful data  7 - Primary to Secondary Ratio (1:1), Outboard primary but used Inboard data for processing  10 - Primary to Secondary Ratio (1:1), Inboard primary with FFT & Snapshot  11 - Primary to Secondary Ratio (20:1), Inboard primary with FFT & Snapshot  12 - Primary to Secondary Ratio (20:1), Inboard primary with Snapshot only  13 - Primary to Secondary Ratio (1:1), Inboard primary, Maneuver mode - no useful data PT01M unitless Scalar Other Time Line (3 sec) Epoch3 Number of milliseconds since the epoch 1994-11-12T00:00:00.000 PT03S ms 1.0e-3>s Scalar Epoch starts on 1994-11-12T00:00:00.000Z Temporal Time Line (3 sec) Time3_PB5 Time of observation in year, day of year, and milliseconds (3 sec) PT03S Array 3 Year 1 Day of year 2 Miliseconds of day 3 Temporal Number of points in average (3 sec) NUM3_PTS Number of data points in 3-second average PT03S unitless Scalar Other Magnetic field magnitude (3 sec) B3F1 Average of the magnetic field magnitudes (F1) This parameter is an average of high-time-resolution field magnitudes PT03S nT 1.0e-9>T Scalar Average Magnitude Magnetic Magnetic field magnitude's RMS (3 sec) B3RMSF1 RMS (standard deviation) of the average of the magnitudes (F1 RMS) PT03S nT 1.0e-9>T Scalar Deviation Magnitude Magnetic Magnetic field vector in GSM coordinates (3 sec) B3GSM Magnetic field vector in GSM coordinates PT03S nT 1.0e-9>T Cartesian GSM Vector 3 Bx X 1 By Y 2 Bz Z 3 Average Vector Magnetic RMS vector in GSM coordinates (3 sec) B3RMSGSM RMS mangetic field vector in GSM coordinates PT03S nT 1.0e-9>T Cartesian GSM Vector 3 RMS Bx X 1 RMS By Y 2 RMS Bz Z 3 Deviation Vector Magnetic Magnetic field vector in GSE coordinates (3 sec) B3GSE Magnetic field vector in GSE coordinates PT03S nT 1.0e-9>T Cartesian GSE Vector 3 Bx X 1 By Y 2 Bz Z 3 Average Vector Magnetic RMS vector in GSE coordinates (3 sec) B3RMSGSE RMS mangetic field vector in GSE coordinates PT03S nT 1.0e-9>T Cartesian GSE Vector 3 RMS Bx X 1 RMS By Y 2 RMS Bz Z 3 Deviation Vector Magnetic Time Line (1 hour) Epoch1 Number of milliseconds since the epoch 1994-11-12T00:00:00.000 PT01H ms 1.0e-3>s Scalar Epoch starts on 1994-11-12T00:00:00.000Z Temporal Time Line (1 hour) Time1_PB5 Time of observation in year, day of year, and milliseconds (1 hour) PT01H Array 3 Year 1 Day of year 2 Miliseconds of day 3 Temporal Number of points in average (1 hour) NUM1_PTS Number of data points in 1-hour average PT01H unitless Scalar Other Magnetic field magnitude (1 hour) B1F1 Average of the magnetic field magnitudes (F1) This parameter is an average of high-time-resolution field magnitudes PT01H nT 1.0e-9>T Scalar Average Magnitude Magnetic Magnetic field magnitude's RMS (1 hour) B1RMSF1 RMS (standard deviation) of the average of the magnitudes (F1 RMS) PT01H nT 1.0e-9>T Scalar Deviation Magnitude Magnetic Magnetic field vector in GSM coordinates (1 hour) B1GSM Magnetic field vector in GSM coordinates PT01H nT 1.0e-9>T Cartesian GSM Vector 3 Bx X 1 By Y 2 Bz Z 3 Average Vector Magnetic RMS vector in GSM coordinates (1 hour) B1RMSGSM RMS mangetic field vector in GSM coordinates PT01H nT 1.0e-9>T Cartesian GSM Vector 3 RMS Bx X 1 RMS By Y 2 RMS Bz Z 3 Deviation Vector Magnetic Magnetic field vector in GSE coordinates (1 hour) B1GSE Magnetic field vector in GSE coordinates PT01H nT 1.0e-9>T Cartesian GSE Vector 3 Bx X 1 By Y 2 Bz Z 3 Average Vector Magnetic RMS vector in GSE coordinates (1 hour) B1RMSGSE RMS mangetic field vector in GSE coordinates PT01H nT 1.0e-9>T Cartesian GSE Vector 3 RMS Bx X 1 RMS By Y 2 RMS Bz Z 3 Deviation Vector Magnetic Radial distance (1 hour) DIST1 Distance from the center of the Earth (Define Re=6378 km) PT01H Re 6.378e6>m Spherical GSE Scalar Radial distance R 1 Positional Position in GSM coordinates (1 hour) P1GSM Position vector in GSM coordinates (Define Re=6378 km) PT01H Re 6.378e6>m Cartesian GSM Vector 3 X X 1 Y Y 2 Z Z 3 Positional Position in GSE coordinates (1 hour) P1GSE Position vector in GSE coordinates (Define Re=6378 km) PT01H Re 6.378e6>m Cartesian GSE Vector 3 X X 1 Y Y 2 Z Z 3 Positional Unit spin vector in GSM coordinates (1 hour) S1GSM Unit spin vector in GSM coordinates PT01H unitless Cartesian GSM Vector 3 X X 1 Y Y 2 Z Z 3 Other Unit spin vector in GSE coordinates (1 hour) S1GSE Unit spin vector in GSE coordinates PT01H unitless Cartesian GSE Vector 3 X X 1 Y Y 2 Z Z 3 Other Sensor zeros (inner) ZERO_I Inboard sensor zero computed once a day. The count-to-nT conversion formula: B(nT) = SENS * (B(counts) - ZERO) / AMPL Array 3 8 The 3 rows are for magnetic field components and 8 columns for sensor zeros for different sensor ranges. Current range is specified in RANGE_I. Other Sensor sensitivities (inner) SENS_I Inboard sensor sensitivity computed once a day. The count-to-nT conversion formula: B(nT) = SENS * (B(counts) - ZERO) / AMPL Array 3 8 The 3 rows are for magnetic field components and 8 columns for sensor zeros for different sensor ranges. Current range is specified in RANGE_I. Other Amplitude correction (inner) AMPL_I Inboard sensor conversion amplitude computed once a day. The count-to-nT conversion formula: B(nT) = SENS * (B(counts) - ZERO) / AMPL Array 3 8 The 3 rows are for magnetic field components and 8 columns for sensor zeros for different sensor ranges. Current range is specified in RANGE_I. Other Orthogonalization matrix (inner) ORTH_I Orthogonalization matrix (inner magnetometer) Array 3 3 Other Payload rotation matrix (inner) PAYLD_I Payload rotation matrix (inner magnetometer) Array 3 3 Other Sensor zero flag (inner) FLAG_I Sensor zero flag (inner magnetometer): 1 - No calibration data for day, used last available calibration 2 - Daily calibration value used (version 3 file) 3 - Daily calibration value used with updated Z correction (version 4 file) Scalar Other Sensor zeros (outer) ZERO_O Outboard sensor zero computed once a day. The count-to-nT conversion formula: B(nT) = SENS * (B(counts) - ZERO) / AMPL Array 3 8 The 3 rows are for magnetic field components and 8 columns for sensor zeros for different sensor ranges. Current range is specified in RANGE_O. Other Sensor sensitivities (outer) SENS_O Outboard sensor sensitivity computed once a day. The count-to-nT conversion formula: B(nT) = SENS * (B(counts) - ZERO) / AMPL Array 3 8 The 3 rows are for magnetic field components and 8 columns for sensor zeros for different sensor ranges. Current range is specified in RANGE_O. Other Amplitude correction (outer) AMPL_O Outboard sensor conversion amplitude computed once a day. The count-to-nT conversion formula: B(nT) = SENS * (B(counts) - ZERO) / AMPL Array 3 8 The 3 rows are for magnetic field components and 8 columns for sensor zeros for different sensor ranges. Current range is specified in RANGE_O. Other Orthogonalization matrix (outer) ORTH_O Orthogonalization matrix (outer magnetometer) Array 3 3 Other Payload rotation matrix (outer) PAYLD_O Payload rotation matrix (outer magnetometer) Array 3 3 Other Sensor zero flag (outer) FLAG_O Sensor zero flag (outer magnetometer): 1 - No calibration data for day, used last available calibration 2 - Daily calibration value used (version 3 file) 3 - Daily calibration value used with updated Z correction (version 4 file) Scalar Other