Van Allen Probe B Energetic Particle, Composition, and Thermal Plasma Suite (ECT) Relativistic Electron Proton Telescope (REPT) Science Data, Electron Fluxes, 2 MeV to 20 MeV, Proton Fluxes, 20 MeV to 120 MeV, Level 2, Release #3 (L2), 4.2 s Data

https://doi.org/10.48322/nzhx-1t77

2022-08-18 12:34:56.789

Van Allen Probe B, Energetic Particle, Composition, and Thermal Plasma Suite, ECT, Relativistic Electron Proton Telescope, REPT, Science Data. Electron Fluxes, 2 MeV to 20 MeV, and Proton Fluxes, 20 MeV to 120 MeV

D.N. Baker. This Work was supported by Van Allen Probes/RBSP-ECT Funding provided by JHU/APL Contract 967399 under NASA Prime Contract NAS5-01072.

spase://VSPO/NumericalData/RBSP/B/ECT/REPT/L2/Sectors/Release03/PT24S

spase://VSPO/NumericalData/RBSP/B/ECT/REPT/SCI_L2/PT4.2S

spase://ViRBO/NumericalData/RBSP/B/ECT/PRE/REPT-SCI-L2/PT.001S

spase://ViRBO/NumericalData/RBSP/B/ECT/REPT-SCI-L2/PT.001S

spase://ViRBO/NumericalData/RBSP/B/ECT/RELPT4.2S

spase://VSPO/NumericalData/RBSP/B/ECT/REPT/L2/Sectors/Release03/PT4.2S

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CDF

None

D.N. Baker. This Work was supported by Van Allen Probes/RBSP-ECT Funding provided by JHU/APL Contract 967399 under NASA Prime Contract NAS5-01072. Please acknowledge the Data Providers and CDAWeb when using these Data.

Online

Open

CSV

D.N. Baker. This Work was supported by Van Allen Probes/RBSP-ECT Funding provided by JHU/APL Contract 967399 under NASA Prime Contract NAS5-01072. Please acknowledge the Data Providers and CDAWeb when using these Data.

PT4.2S

Epoch Time, Sample Time, Midpoint

Epoch

Epoch Time, Midpoint of the Sample Time

This Parameter exhibits an increasing Monotonic Progression.

PT4.2S

01-Jan-1990 00:00:00.000

31-Dec-2059 23:59:59.999

31-Dec-9999 23:59:59.999

Data Quality Flag

Time Series defined by using: EPOCH

Data_Quality

Data Quality Flag

0=Valid Data, 1=Timing Err, 2=Bias_st Off, 3=Timing Err and Bias_st Off

PT4.2S

0

7

-2147483648

Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Spectrograms

Time Series defined by using: EPOCH

FESA

Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Spectrograms, Energies from 2 MeV to 20 MeV, 12 Energy Bands

Dimension 1 holds 12 Electron Energy Bins. FESA stands for Flux, Electron, Spin-Averaged.

PT4.2S

(cm^2 s sr MeV)^-1

6.24161e-19>(m^2 s sr J)^-1

0.0

1.0e+31

-1.0e+31

Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Time Series Stack Plots

Time Series defined by using: EPOCH

FESA_E

Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Time Series Stack Plots, Energies from 2 MeV to 20 MeV

Dimension 1 holds 12 Electron Energy Bins. FESA stands for Flux, Electron, Spin-Averaged. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FESA.

PT4.2S

(cm^2 s sr MeV)^-1

6.24161e-19>(m^2 s sr J)^-1

0.0

1.0e+31

-1.0e+31

Energy Channel Centroids, Spin-Averaged Electron Differential Flux Intensity, Omnidirectional

FESA_Energy

Energy Channel Centroids, Spin-Averaged Electron Differential Flux Intensity, Omnidirectional

Centers of the Electron Energy Bins. The Value Uncertainty contains the ±Range for each Bin. FESA stands for Flux, Electron, Spin-Averaged.

PT4.2S

MeV

1.602176565e-13>J

1.0

25.0

-1.0e+31

Energy Deltas, Spin-Averaged Electron Differential Flux Intensity, Omnidirectional

FESA_Delta_Energy

Energy Deltas, Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Energies from 2 MeV to 20 MeV

Selesnick-Blake Bowtie Energy Deltas associated with the Electron Energy Bins

PT4.2S

0.0

1.0

-1.0e+31

Electron Differential Flux Intensity, Unidirectional, Energy-Angle Plasmagrams

Time Series defined by using: EPOCH

FEDU

Electron Differential Flux Intensity, Unidirectional, Energy-Angle Plasmagrams, Energies from 2 MeV to 20 MeV. * Column 1 Labels from SECTORS: ["FEDU_@5_Deg","FEDU@15_Deg","FEDU@25_Deg","FEDU@35_Deg","FEDU@45_Deg","FEDU@55_Deg","FEDU@65_Deg","FEDU@75_Deg","FEDU@85_Deg","FEDU@95_Deg","FEDU@105_Deg","FEDU@115_Deg","FEDU@125_Deg","FEDU@135_Deg","FEDU@145_Deg","FEDU@155_Deg","FEDU@165_Deg","FEDU@175_Deg","FEDU@185_Deg","FEDU@195_Deg","FEDU@205_Deg","FEDU@215_Deg","FEDU@225_Deg","FEDU@235_Deg","FEDU@245_Deg","FEDU@255_Deg","FEDU@265_Deg","FEDU@275_Deg","FEDU@285_Deg","FEDU@295_Deg","FEDU@305_Deg","FEDU@315_Deg","FEDU@325_Deg","FEDU@335_Deg","FEDU@345_Deg","FEDU@355_Deg"]. * Column 2 Labels from FEDU_ENERGY: ["FEDU@1.80 MeV","FEDU@2.10 MeV","FEDU@2.60 MeV","FEDU@3.40 MeV","FEDU@4.20 MeV","FEDU@5.20 MeV","FEDU@6.30 MeV","FEDU@7.70 MeV","FEDU@9.90 MeV","FEDU@12.30 MeV","FEDU@15.20 MeV","FEDU@_20.00 MeV"].

Dimension 1 holds 12 Electron Energy Bins. Dimension 2 holds 36 Sectors. FEDU stands for Flux, Electron, Differential, Unidirectional.

PT4.2S

(cm^2 s sr MeV)^-1

6.24161e-19>(m^2 s sr J)^-1

-1.0e+31

Electron Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Sectors

Time Series defined by using: EPOCH

FEDU_E

Electron Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Sectors, Energies from 2 MeV to 20 MeV. * Column 1 Labels from SECTORS: ["FEDU_@5_Deg","FEDU@15_Deg","FEDU@25_Deg","FEDU@35_Deg","FEDU@45_Deg","FEDU@55_Deg","FEDU@65_Deg","FEDU@75_Deg","FEDU@85_Deg","FEDU@95_Deg","FEDU@105_Deg","FEDU@115_Deg","FEDU@125_Deg","FEDU@135_Deg","FEDU@145_Deg","FEDU@155_Deg","FEDU@165_Deg","FEDU@175_Deg","FEDU@185_Deg","FEDU@195_Deg","FEDU@205_Deg","FEDU@215_Deg","FEDU@225_Deg","FEDU@235_Deg","FEDU@245_Deg","FEDU@255_Deg","FEDU@265_Deg","FEDU@275_Deg","FEDU@285_Deg","FEDU@295_Deg","FEDU@305_Deg","FEDU@315_Deg","FEDU@325_Deg","FEDU@335_Deg","FEDU@345_Deg","FEDU@355_Deg"]. * Column 2 Labels from FEDU_ENERGY: ["FEDU@1.80 MeV","FEDU@2.10 MeV","FEDU@2.60 MeV","FEDU@3.40 MeV","FEDU@4.20 MeV","FEDU@5.20 MeV","FEDU@6.30 MeV","FEDU@7.70 MeV","FEDU@9.90 MeV","FEDU@12.30 MeV","FEDU@15.20 MeV","FEDU@_20.00 MeV"].

Dimension 1 holds 12 Electron Energy Bins. Dimension 2 holds 36 Sectors. FEDU stands for Flux, Electron, Differential, Unidirectional. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FEDU.

PT4.2S

(cm^2 s sr MeV)^-1

6.24161e-19>(m^2 s sr J)^-1

-1.0e+31

Electron Differential Flux Intensity, Unidirectional, Spectrograms by Sector at Sample Energies

Time Series defined by using: EPOCH

FEDU_A

Electron Differential Flux Intensity, Unidirectional, Spectrograms by Sector at Sample Energies, Energies from 2 MeV to 20 MeV. * Column 1 Labels from SECTORS: ["FEDU_@5_Deg","FEDU@15_Deg","FEDU@25_Deg","FEDU@35_Deg","FEDU@45_Deg","FEDU@55_Deg","FEDU@65_Deg","FEDU@75_Deg","FEDU@85_Deg","FEDU@95_Deg","FEDU@105_Deg","FEDU@115_Deg","FEDU@125_Deg","FEDU@135_Deg","FEDU@145_Deg","FEDU@155_Deg","FEDU@165_Deg","FEDU@175_Deg","FEDU@185_Deg","FEDU@195_Deg","FEDU@205_Deg","FEDU@215_Deg","FEDU@225_Deg","FEDU@235_Deg","FEDU@245_Deg","FEDU@255_Deg","FEDU@265_Deg","FEDU@275_Deg","FEDU@285_Deg","FEDU@295_Deg","FEDU@305_Deg","FEDU@315_Deg","FEDU@325_Deg","FEDU@335_Deg","FEDU@345_Deg","FEDU@355_Deg"]. * Column 2 Labels from FEDU_ENERGY: ["FEDU@1.80 MeV","FEDU@2.10 MeV","FEDU@2.60 MeV","FEDU@3.40 MeV","FEDU@4.20 MeV","FEDU@5.20 MeV","FEDU@6.30 MeV","FEDU@7.70 MeV","FEDU@9.90 MeV","FEDU@12.30 MeV","FEDU@15.20 MeV","FEDU@_20.00 MeV"].

Dimension 1 holds 12 Electron Energy Bins. Dimension 2 holds 36 Sectors. FEDU stands for Flux, Electron, Differential, Unidirectional. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FEDU.

PT4.2S

(cm^2 s sr MeV)^-1

6.24161e-19>(m^2 s sr J)^-1

-1.0e+31

Electron Differential Flux Intensity, Unidirectional, Time Series

Time Series defined by using: EPOCH

FEDU_T

Electron Differential Flux Intensity, Unidirectional, Time Series, Energies from 2 MeV to 20 MeV. * Column 1 Labels from SECTORS: ["FEDU_@5_Deg","FEDU@15_Deg","FEDU@25_Deg","FEDU@35_Deg","FEDU@45_Deg","FEDU@55_Deg","FEDU@65_Deg","FEDU@75_Deg","FEDU@85_Deg","FEDU@95_Deg","FEDU@105_Deg","FEDU@115_Deg","FEDU@125_Deg","FEDU@135_Deg","FEDU@145_Deg","FEDU@155_Deg","FEDU@165_Deg","FEDU@175_Deg","FEDU@185_Deg","FEDU@195_Deg","FEDU@205_Deg","FEDU@215_Deg","FEDU@225_Deg","FEDU@235_Deg","FEDU@245_Deg","FEDU@255_Deg","FEDU@265_Deg","FEDU@275_Deg","FEDU@285_Deg","FEDU@295_Deg","FEDU@305_Deg","FEDU@315_Deg","FEDU@325_Deg","FEDU@335_Deg","FEDU@345_Deg","FEDU@355_Deg"]. * Column 2 Labels from FEDU_ENERGY: ["FEDU@1.80 MeV","FEDU@2.10 MeV","FEDU@2.60 MeV","FEDU@3.40 MeV","FEDU@4.20 MeV","FEDU@5.20 MeV","FEDU@6.30 MeV","FEDU@7.70 MeV","FEDU@9.90 MeV","FEDU@12.30 MeV","FEDU@15.20 MeV","FEDU@_20.00 MeV"].

Dimension 1 holds 12 Electron Energy Bins. Dimension 2 holds 36 Sectors. FEDU stands for Flux, Electron, Differential, Unidirectional. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FEDU.

PT4.2S

(cm^2 s sr MeV)^-1

6.24161e-19>(m^2 s sr J)^-1

-1.0e+31

Energy Channel Centroids, Electron Differential Flux Intensity, Unidirectional

FEDU_Energy

Energy Channel Centroids, Electron Differential Flux Intensity, Unidirectional

Centers of the Electron Energy Bins. The Value Uncertainty contains the ±Range for each Bin. FEDU stands for Flux, Electron, Differential, Unidirectional.

PT4.2S

MeV

1.602176565e-13>J

1.0

25.0

-1.0e+31

Energy Deltas, Electron Differential Flux Intensity, Unidirectional

FEDU_Delta_Energy

Energy Deltas, Electron Differential Flux Intensity, Unidirectional

Selesnick-Blake Bowtie Energy Deltas associated with the Electron Energy Bins

PT4.2S

0.0

1.0

-1.0e+31

Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Spectrograms

Time Series defined by using: EPOCH

FPSA

Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Spectrograms, Energies from 20 MeV to 120 MeV

Dimension 1 holds 8 Proton Energy Bins. FPSA stands for Flux, Proton, Spin-Averaged.

PT4.2S

(cm^2 s sr MeV)^-1

6.24161e-19>(m^2 s sr J)^-1

0.0

1.0e+31

-1.0e+31

Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Time Series Stack Plots

Time Series defined by using: EPOCH

FPSA_E

Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Time Series Stack Plots, Energies from 2 MeV to 20 MeV

Dimension 1 holds 8 Proton Energy Bins. FPSA stands for Flux, Proton, Spin-Averaged. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FPSA.

PT4.2S

(cm^2 s sr MeV)^-1

6.24161e-19>(m^2 s sr J)^-1

0.0

1.0e+31

-1.0e+31

Energy Channel Centroids, Spin-Averaged Proton Differential Flux Intensity, Omnidirectional

FPSA_Energy

Energy Channel Centroids, Spin-Averaged Proton Differential Flux Intensity, Omnidirectional

Centers of the Proton Energy Bins. The Value Uncertainty contains the ±Range for each Bin. FPSA stands for Flux, Proton, Spin-Averaged.

PT4.2S

MeV

1.602176565e-13>J

10.0

1000.0

-1.0e+31

Energy Deltas, Proton Differential Flux Intensity, Unidirectional

FPSA_Energy_DELTA_VAR

Energy Deltas, Proton Differential Flux Intensity, Unidirectional

Van Allen-Blake Bowtie Energy Bin Widths from the Energy Center of the Bin. The Delta Var Value contains the ± Energy Range for each Bin. FPSA stands for Flux, Proton, Spin-Averaged.

PT4.2S

MeV

1.602176565e-13>J

0.0

1.0e+31

-1.0e+31

Proton Energy Bin Efficiency Values

FPSA_Efficiency

Proton Energy Bin Efficiency Values

FPSA stands for Flux, Proton, Spin-Averaged

PT4.2S

0.0

1000.0

-1.0e+31

Proton Differential Flux Intensity, Unidirectional, Energy-Angle Plasmagrams

Time Series defined by using: EPOCH

FPDU

Proton Differential Flux Intensity, Unidirectional, Energy-Angle Plasmagrams, Energies from 20 MeV to 120 MeV. * Column 1 Labels from SECTORS: ["FPDU_@5_Deg","FPDU@15_Deg","FPDU@25_Deg","FPDU@35_Deg","FPDU@45_Deg","FPDU@55_Deg","FPDU@65_Deg","FPDU@75_Deg","FPDU@85_Deg","FPDU@95_Deg","FPDU@105_Deg","FPDU@115_Deg","FPDU@125_Deg","FPDU@135_Deg","FPDU@145_Deg","FPDU@155_Deg","FPDU@165_Deg","FPDU@175_Deg","FPDU@185_Deg","FPDU@195_Deg","FPDU@205_Deg","FPDU@215_Deg","FPDU@225_Deg","FPDU@235_Deg","FPDU@245_Deg","FPDU@255_Deg","FPDU@265_Deg","FPDU@275_Deg","FPDU@285_Deg","FPDU@295_Deg","FPDU@305_Deg","FPDU@315_Deg","FPDU@325_Deg","FPDU@335_Deg","FPDU@345_Deg","FPDU@355_Deg"]. * Column 2 Labels from FPDU_ENERGY: ["FPDU@21.25 MeV","FPDU@27.60 MeV","FPDU@35.90 MeV","FPDU@46.70 MeV","FPDU@60.70 MeV","FPDU@78.90 MeV","FPDU@102.60 MeV","FPDU@_208.00 MeV"].

Dimension 1 holds 8 Proton Energy Bins. Dimension 2 holds 36 Sectors. FPDU stands for Flux, Proton, Differential, Unidirectional.

PT4.2S

(cm^2 s sr MeV)^-1

6.24161e-19>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Sectors

Time Series defined by using: EPOCH

FPDU_E

Proton Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Sectors, Energies from 20 MeV to 120 MeV. * Column 1 Labels from SECTORS: ["FPDU_@5_Deg","FPDU@15_Deg","FPDU@25_Deg","FPDU@35_Deg","FPDU@45_Deg","FPDU@55_Deg","FPDU@65_Deg","FPDU@75_Deg","FPDU@85_Deg","FPDU@95_Deg","FPDU@105_Deg","FPDU@115_Deg","FPDU@125_Deg","FPDU@135_Deg","FPDU@145_Deg","FPDU@155_Deg","FPDU@165_Deg","FPDU@175_Deg","FPDU@185_Deg","FPDU@195_Deg","FPDU@205_Deg","FPDU@215_Deg","FPDU@225_Deg","FPDU@235_Deg","FPDU@245_Deg","FPDU@255_Deg","FPDU@265_Deg","FPDU@275_Deg","FPDU@285_Deg","FPDU@295_Deg","FPDU@305_Deg","FPDU@315_Deg","FPDU@325_Deg","FPDU@335_Deg","FPDU@345_Deg","FPDU@355_Deg"]. * Column 2 Labels from FPDU_ENERGY: ["FPDU@21.25 MeV","FPDU@27.60 MeV","FPDU@35.90 MeV","FPDU@46.70 MeV","FPDU@60.70 MeV","FPDU@78.90 MeV","FPDU@102.60 MeV","FPDU@_208.00 MeV"].

Dimension 1 holds 8 Proton Energy Bins. Dimension 2 holds 36 Sectors. FPDU stands for Flux, Proton, Differential, Unidirectional. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FPDU.

PT4.2S

(cm^2 s sr MeV)^-1

6.24161e-19>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux Intensity, Unidirectional, Spectrograms by Sector at Sample Energies

Time Series defined by using: EPOCH

FPDU_A

Proton Differential Flux Intensity, Unidirectional, Spectrograms by Sector at Sample Energies, Energies from 20 MeV to 120 MeV. * Column 1 Labels from SECTORS: ["FPDU_@5_Deg","FPDU@15_Deg","FPDU@25_Deg","FPDU@35_Deg","FPDU@45_Deg","FPDU@55_Deg","FPDU@65_Deg","FPDU@75_Deg","FPDU@85_Deg","FPDU@95_Deg","FPDU@105_Deg","FPDU@115_Deg","FPDU@125_Deg","FPDU@135_Deg","FPDU@145_Deg","FPDU@155_Deg","FPDU@165_Deg","FPDU@175_Deg","FPDU@185_Deg","FPDU@195_Deg","FPDU@205_Deg","FPDU@215_Deg","FPDU@225_Deg","FPDU@235_Deg","FPDU@245_Deg","FPDU@255_Deg","FPDU@265_Deg","FPDU@275_Deg","FPDU@285_Deg","FPDU@295_Deg","FPDU@305_Deg","FPDU@315_Deg","FPDU@325_Deg","FPDU@335_Deg","FPDU@345_Deg","FPDU@355_Deg"]. * Column 2 Labels from FPDU_ENERGY: ["FPDU@21.25 MeV","FPDU@27.60 MeV","FPDU@35.90 MeV","FPDU@46.70 MeV","FPDU@60.70 MeV","FPDU@78.90 MeV","FPDU@102.60 MeV","FPDU@_208.00 MeV"].

Dimension 1 holds 8 Proton Energy Bins. Dimension 2 holds 36 Sectors. FPDU stands for Flux, Proton, Differential, Unidirectional. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FPDU.

PT4.2S

(cm^2 s sr MeV)^-1

6.24161e-19>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux Intensity, Unidirectional, Time Series

Time Series defined by using: EPOCH

FPDU_T

Proton Differential Flux Intensity, Unidirectional, Time Series, Energies from 20 MeV to 120 MeV. * Column 1 Labels from SECTORS: ["FPDU_@5_Deg","FPDU@15_Deg","FPDU@25_Deg","FPDU@35_Deg","FPDU@45_Deg","FPDU@55_Deg","FPDU@65_Deg","FPDU@75_Deg","FPDU@85_Deg","FPDU@95_Deg","FPDU@105_Deg","FPDU@115_Deg","FPDU@125_Deg","FPDU@135_Deg","FPDU@145_Deg","FPDU@155_Deg","FPDU@165_Deg","FPDU@175_Deg","FPDU@185_Deg","FPDU@195_Deg","FPDU@205_Deg","FPDU@215_Deg","FPDU@225_Deg","FPDU@235_Deg","FPDU@245_Deg","FPDU@255_Deg","FPDU@265_Deg","FPDU@275_Deg","FPDU@285_Deg","FPDU@295_Deg","FPDU@305_Deg","FPDU@315_Deg","FPDU@325_Deg","FPDU@335_Deg","FPDU@345_Deg","FPDU@355_Deg"]. * Column 2 Labels from FPDU_ENERGY: ["FPDU@21.25 MeV","FPDU@27.60 MeV","FPDU@35.90 MeV","FPDU@46.70 MeV","FPDU@60.70 MeV","FPDU@78.90 MeV","FPDU@102.60 MeV","FPDU@_208.00 MeV"].

Dimension 1 holds 12 Proton Energy Bins. Dimension 2 holds 36 Sectors. FPDU stands for Flux, Proton, Differential, Unidirectional. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FPDU.

PT4.2S

(cm^2 s sr MeV)^-1

6.24161e-19>(m^2 s sr J)^-1

-1.0e+31

Energy Channel Centroids, Proton Differential Flux Intensity, Unidirectional

FPDU_Energy

Energy Channel Centroids, Proton Differential Flux Intensity, Unidirectional

Centers of the Proton Energy Bins. The Value Uncertainty contains the ±Range for each Bin. FPDU stands for Flux, Proton, Differential, Unidirectional.

PT4.2S

MeV

1.602176565e-13>J

10.0

1000.0

-1.0e+31

Energy Deltas, Proton Differential Flux Intensity, Unidirectional

FPDU_Energy_DELTA_VAR

Energy Deltas, Proton Differential Flux Intensity, Unidirectional

Van Allen-Blake Bowtie Energy Bin Widths from the Energy Center of the Bin. The Delta Var Value contains the ± Energy Range for each Bin. FPDU stands for Flux, Proton, Differential, Unidirectional.

PT4.2S

MeV

1.602176565e-13>J

0.0

1.0e+31

-1.0e+31

Proton Energy Bin Efficiency Values

FPDU_Efficiency

Proton Energy Bin Efficiency Values

FPDU stands for Flux, Proton, Differential, Unidirectional

PT4.2S

0.0

1000.0

-1.0e+31

Instrument Pointing Direction, Sector Centers

SECTORS

Instrument Pointing Direction, Sector Centers

There are 36 Sectors per Spacecraft Spin. This Parameter lists the Center of each Sector in Degrees. The Pointing Uncertainty in DELTA_PLUS_VAR/DELTA_MINUS_VAR contains the Range of ±5 Degrees.

PT4.2S

°

0.0174532925>rad

0.0

360.0

-1.0e+31

Instrument Pointing Direction, Range Delta

SECTORS_DELTA_VAR

Instrument Pointing Direction, Range Delta

Each Sector covers 10 Degrees. The Range Deltas from the Sector Centers are ±5 degrees.

PT4.2S

°

0.0174532925>rad

0.0

10.0

-1.0e+31

Spacecraft Position Vector, Geographic Cartesian Coordinates

Time Series defined by using: EPOCH

Position

Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates

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. Average Type: standard

PT4.2S

km

1.0e3>m

-210000.0

210000.0

-1.0e+31

Data Quality Flag, Spacecraft Position Vector, Geographic Cartesian Coordinates

Time Series defined by using: EPOCH

Position_Quality

Data Quality Flag, Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates, 0=Highest Quality

0 denotes highest quality.

PT4.2S

-32768

32767

-32768

Model Spacecraft Magnetic Field Magnitude, Geographic Cartesian Coordinates

Time Series defined by using: EPOCH

B_Calc

Model Spacecraft Magnetic Field Magnitude, Geographic, GEO, Cartesian Coordinates

Average Type: standard

PT4.2S

nT

1.0e-9>T

0.0

1.0e+31

-1.0e+31

Model Magnetic Field Magnitude, Equatorial

Time Series defined by using: EPOCH

B_Eq

Model Magnetic Field Magnitude at the Magnetic Equator

Average Type: standard

PT4.2S

nT

1.0e-9>T

0.0

1.0e+31

-1.0e+31

McIlwain L Shell Parameter

Time Series defined by using: EPOCH

L

McIlwain L Shell Parameter

Average Type: standard

PT4.2S

Re

6.3712e6>m

0.0

20.0

-1.0e+31

Roederer L* generalized L Shell Parameter

Time Series defined by using: EPOCH

L_star

Roederer L* generalized L Shell Parameter

Average Type: standard

PT4.2S

Re

6.3712e6>m

0.0

20.0

-1.0e+31

Second Adiabatic Invariant, Bounce

Time Series defined by using: EPOCH

I

Second Adiabatic Invariant, Bounce

Average Type: standard

PT4.2S

none

0.0

1.0e+31

-1.0e+31

Spacecraft Position, Magnetic Local Time

Time Series defined by using: EPOCH

MLT

Spacecraft Position, Magnetic Local Time, MLT, in Hours

Average Type: angle_hour

PT4.2S

h

3600>s

0.0

24.0

-1.0e+31

Pitch Angle, Alpha

Time Series defined by using: EPOCH

Alpha

Pitch Angle, Alpha

Average Type: angle_degrees

PT4.2S

°

0.0174532925>rad

0.0

180.0

-1.0e+31

Equatorial Pitch Angle, Alpha

Time Series defined by using: EPOCH

Alpha_Eq

Equatorial Pitch Angle, Alpha

Average Type: angle_degrees

PT4.2S

°

0.0174532925>rad

0.0

180.0

-1.0e+31