NOAA 18 POES Space Environment Monitor-2 (SEM-2) 2-second Particle Precipitation Data

2021-04-27 17:52:57Z

POES-SEM2>POES-Space Environment Monitor 2 POES N19 Data: POES/MetOp: Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations

NGDC, SWPC

spase://VSPO/NumericalData/NOAA/18/SEM-2/PT2S

Online

Open

CDF

None

NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data.

Online

Open

CSV

NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data.

PT2S

Epoch

Epoch

Default Time

This parameter exhibits an increasing monotonic progression.

PT2S

ns

1e-9>s

1990-01-01T00:00:00.000000000

2029-12-31T23:59:59.999000000

9999-12-31T23:59:59.999999999

Time

time

Date and Time for each Observation

PT2S

ms

1e-3>s

0.0

0.0

-2.14748e+09

Year

year

Year, 4 Digit

PT2S

year

3.1536e7>s

0.0

0.0

-2.14748e+09

Day of Year

day

Day of Year, 3 Digit

PT2S

d

86400>s^-1

0.0

0.0

-2.14748e+09

Milliseconds of Day

msec

Milliseconds of the Day

PT2S

ms

1e-3>s

0.0

0.0

-2.14748e+09

Electron Differential Flux, 0° Telescope

Time series defined by using: EPOCH

ted_ele_flux_stackt0

Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux.

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Electron Differential Flux, 30° Telescope

Time series defined by using: EPOCH

ted_ele_flux_stackt30

Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux.

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Electron Differential Flux, 189 keV

Time series defined by using: EPOCH

ted_ele_flux_t_stacke1

Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux.

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Electron Differential Flux, 844 keV

Time series defined by using: EPOCH

ted_ele_flux_t_stacke2

Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux.

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Electron Differential Flux, 2595 keV

Time series defined by using: EPOCH

ted_ele_flux_t_stacke3

Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux.

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Electron Differential Flux, 7980 keV

Time series defined by using: EPOCH

ted_ele_flux_t_stacke4

Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux.

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Electron Differential Flux, Spectrograms

Time series defined by using: EPOCH

ted_ele_flux

Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00]

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Electron Differential Energies

ted_ele_diff_energies

Total Energy Detector, TED, Electron Differential Energies

PT2S

eV

1.60218e-19>J

100.0

10000.0

-1.0e+31

Telescope Direction

ted_telescopes

Total Energy Detector, TED, Telescope Directions, 0° and 30°

PT2S

0.0

30.0

-1.0e+31

Proton Differential Flux, 0° Telescope

Time series defined by using: EPOCH

ted_pro_flux_stackt0

Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux.

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, 30° Telescope

Time series defined by using: EPOCH

ted_pro_flux_stackt30

Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux.

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, 189 keV

Time series defined by using: EPOCH

ted_pro_flux_t_stacke1

Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux.

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, 844 keV

Time series defined by using: EPOCH

ted_pro_flux_t_stacke2

Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux.

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, 2595 keV

Time series defined by using: EPOCH

ted_pro_flux_t_stacke3

Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux.

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, 7980 keV

Time series defined by using: EPOCH

ted_pro_flux_t_stacke4

Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux.

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, Spectrograms, 189 eV to 7980 eV

Time series defined by using: EPOCH

ted_pro_flux

Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00]

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Energies

ted_pro_diff_energies

Total Energy Detector, TED, Proton Differential Energies

PT2S

eV

1.60218e-19>J

100.0

10000.0

-1.0e+31

Electron Integral Energy Flux, 0° Telescope, Low Energy

Time series defined by using: EPOCH

ted_ele_tel0_low_eflux

Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

-200.0

200.0

-1.0e+31

Electron Integral Energy Flux, 30° Telescope, Low Energy

Time series defined by using: EPOCH

ted_ele_tel30_low_eflux

Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

-200.0

200.0

-1.0e+31

Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error

Time series defined by using: EPOCH

ted_ele_tel0_low_eflux_error

Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV

PT2S

0.01

10000.0

-1.0e+31

Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error

Time series defined by using: EPOCH

ted_ele_tel30_low_eflux_error

Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV

PT2S

0.01

10000.0

-1.0e+31

Electron Integral Energy Flux, 0° Telescope, High Energy

Time series defined by using: EPOCH

ted_ele_tel0_hi_eflux

Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

-200.0

200.0

-1.0e+31

Electron Integral Energy Flux, 30° Telescope, High Energy

Time series defined by using: EPOCH

ted_ele_tel30_hi_eflux

Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

-200.0

200.0

-1.0e+31

Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error

Time series defined by using: EPOCH

ted_ele_tel0_hi_eflux_error

Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV

PT2S

0.01

10000.0

-1.0e+31

Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error

Time series defined by using: EPOCH

ted_ele_tel30_hi_eflux_error

Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV

PT2S

0.01

10000.0

-1.0e+31

Proton Integral Energy Flux, 0° Telescope, Low Energy

Time series defined by using: EPOCH

ted_pro_tel0_low_eflux

Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

-200.0

200.0

-1.0e+31

Proton Integral Energy Flux, 30° Telescope, Low Energy

Time series defined by using: EPOCH

ted_pro_tel30_low_eflux

Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

-200.0

200.0

-1.0e+31

Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error

Time series defined by using: EPOCH

ted_pro_tel0_low_eflux_error

Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV

PT2S

0.01

10000.0

-1.0e+31

Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error

Time series defined by using: EPOCH

ted_pro_tel30_low_eflux_error

Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV

PT2S

0.01

10000.0

-1.0e+31

Proton Integral Energy Flux, 0° Telescope, High Energy

Time series defined by using: EPOCH

ted_pro_tel0_hi_eflux

Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

-200.0

200.0

-1.0e+31

Proton Integral Energy Flux, 30° Telescope, High Energy

Time series defined by using: EPOCH

ted_pro_tel30_hi_eflux

Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

-200.0

200.0

-1.0e+31

Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error

Time series defined by using: EPOCH

ted_pro_tel0_hi_eflux_error

Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV

PT2S

0.01

10000.0

-1.0e+31

Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error

Time series defined by using: EPOCH

ted_pro_tel30_hi_eflux_error

Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV

PT2S

0.01

10000.0

-1.0e+31

Electron Atmospheric Integral Energy Flux, Low Energy

Time series defined by using: EPOCH

ted_ele_eflux_atmo_low

Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV

PT2S

mW/m^2

1e-3>W/m^2

-6400.0

6400.0

-1.0e+31

Electron Atmospheric Integral Energy Flux, High Energy

Time series defined by using: EPOCH

ted_ele_eflux_atmo_hi

Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV

PT2S

mW/m^2

1e-3>W/m^2

-6400.0

6400.0

-1.0e+31

Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error

Time series defined by using: EPOCH

ted_ele_eflux_atmo_low_err

Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV

PT2S

0.01

10000.0

-1.0e+31

Electron Atmospheric Integral Energy Flux, High Energy, Percent Error

Time series defined by using: EPOCH

ted_ele_eflux_atmo_hi_err

Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV

PT2S

0.01

10000.0

-1.0e+31

Electron Total Atmospheric Integral Energy Flux

Time series defined by using: EPOCH

ted_ele_eflux_atmo_total

Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km

PT2S

mW/m^2

1e-3>W/m^2

-12800.0

6400.0

-1.0e+31

Electron Total Atmospheric Integral Energy Flux, Percent Error

Time series defined by using: EPOCH

ted_ele_eflux_atmo_total_err

Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error

PT2S

0.01

10000.0

-1.0e+31

Proton Atmospheric Integral Energy Flux, Low Energy

Time series defined by using: EPOCH

ted_pro_eflux_atmo_low

Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV

PT2S

mW/m^2

1e-3>W/m^2

-6400.0

6400.0

-1.0e+31

Proton Atmospheric Integral Energy Flux, High Energy

Time series defined by using: EPOCH

ted_pro_eflux_atmo_hi

Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV

PT2S

mW/m^2

1e-3>W/m^2

-6400.0

6400.0

-1.0e+31

Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error

Time series defined by using: EPOCH

ted_pro_eflux_atmo_low_err

Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV

PT2S

0.01

10000.0

-1.0e+31

Proton Atmospheric Integral Energy Flux, High Energy, Percent Error

Time series defined by using: EPOCH

ted_pro_eflux_atmo_hi_err

Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV

PT2S

0.01

10000.0

-1.0e+31

Proton Total Atmospheric Integral Energy Flux

Time series defined by using: EPOCH

ted_pro_eflux_atmo_total

Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km

PT2S

mW/m^2

1e-3>W/m^2

-12800.0

6400.0

-1.0e+31

Proton Total Atmospheric Integral Energy Flux, Percent Error

Time series defined by using: EPOCH

ted_pro_eflux_atmo_total_err

Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error

PT2S

0.01

10000.0

-1.0e+31

Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km

Time series defined by using: EPOCH

ted_total_eflux_atmo

Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km

PT2S

mW/m^2

1e-3>W/m^2

-25600.0

25600.0

-1.0e+31

Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error

Time series defined by using: EPOCH

ted_total_eflux_atmo_err

Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error

PT2S

mW/m^2

1e-3>W/m^2

0.01

10000.0

-1.0e+31

Electron Characteristic Energy Channel, 0° Telescope

Time series defined by using: EPOCH

ted_ele_energy_tel0

Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope

PT2S

0

15

255

Electron Characteristic Energy Channel, 30° Telescope

Time series defined by using: EPOCH

ted_ele_energy_tel30

Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope

PT2S

0

15

255

Proton Characteristic Energy Channel, 0° Telescope

Time series defined by using: EPOCH

ted_pro_energy_tel0

Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope

PT2S

0

15

255

Proton Characteristic Energy Channel, 30° Telescope

Time series defined by using: EPOCH

ted_pro_energy_tel30

Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope

PT2S

0

15

255

Electron Maximum Differential Flux, 0° Telescope

Time series defined by using: EPOCH

ted_ele_max_flux_tel0

Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

0.0

4.0e+09

-1.0e+31

Electron Maximum Differential Flux, 30° Telescope

Time series defined by using: EPOCH

ted_ele_max_flux_tel30

Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

0.0

4.0e+09

-1.0e+31

Proton Maximum Differential Flux, 0° Telescope

Time series defined by using: EPOCH

ted_pro_max_flux_tel0

Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

0.0

4.0e+09

-1.0e+31

Proton Maximum Differential Flux, 30° Telescope

Time series defined by using: EPOCH

ted_pro_max_flux_tel30

Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope

PT2S

(cm^2 s sr eV)^-1

6.24161e22>(m^2 s sr J)^-1

0.0

4.0e+09

-1.0e+31

Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV

Time series defined by using: EPOCH

ted_ele_eflux_bg_tel0_low

Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

0.0

200.0

-1.0e+31

Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV

Time series defined by using: EPOCH

ted_ele_eflux_bg_tel30_low

Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

0.0

200.0

-1.0e+31

Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV

Time series defined by using: EPOCH

ted_ele_eflux_bg_tel0_hi

Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

0.0

200.0

-1.0e+31

Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV

Time series defined by using: EPOCH

ted_ele_eflux_bg_tel30_hi

Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

0.0

200.0

-1.0e+31

Proton Background Integral Energy Flux, 0° Telescope, Low Energy

Time series defined by using: EPOCH

ted_pro_eflux_bg_tel0_low

Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

0.0

200.0

-1.0e+31

Proton Background Integral Energy Flux, 30° Telescope, Low Energy

Time series defined by using: EPOCH

ted_pro_eflux_bg_tel30_low

Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

0.0

200.0

-1.0e+31

Proton Background Integral Energy Flux, 0° Telescope, High Energy

Time series defined by using: EPOCH

ted_pro_eflux_bg_tel0_hi

Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

0.0

200.0

-1.0e+31

Proton Background Integral Energy Flux, 30° Telescope, High Energy

Time series defined by using: EPOCH

ted_pro_eflux_bg_tel30_hi

Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV

PT2S

mW/(m^2 sr)

1e-3>W/(m^2 sr)

0.0

200.0

-1.0e+31

Electron Background Counts, 0° Telescope, Low Energy

Time series defined by using: EPOCH

ted_ele_eflux_bg_tel0_low_cps

Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV

PT2S

0.0

1.99885e+06

-1.0e+31

Electron Background Counts, 30° Telescope, Low Energy

Time series defined by using: EPOCH

ted_ele_eflux_bg_tel30_low_cps

Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV

PT2S

0.0

1.99885e+06

-1.0e+31

Electron Background Counts, 0° Telescope, High Energy

Time series defined by using: EPOCH

ted_ele_eflux_bg_tel0_hi_cps

Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV

PT2S

0.0

1.99885e+06

-1.0e+31

Electron Background Counts, 30° Telescope, High Energy

Time series defined by using: EPOCH

ted_ele_eflux_bg_tel30_hi_cps

Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV

PT2S

0.0

1.99885e+06

-1.0e+31

Proton Background Counts, 0° Telescope, Low Energy

Time series defined by using: EPOCH

ted_pro_eflux_bg_tel0_low_cps

Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV

PT2S

0.0

1.99885e+06

-1.0e+31

Proton Background Counts, 30° Telescope, Low Energy

Time series defined by using: EPOCH

ted_pro_eflux_bg_tel30_low_cps

Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV

PT2S

0.0

1.99885e+06

-1.0e+31

Proton Background Counts, 0° Telescope, High Energy

Time series defined by using: EPOCH

ted_pro_eflux_bg_tel0_hi_cps

Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV

PT2S

0.0

1.99885e+06

-1.0e+31

Proton Background Counts, 30° Telescope, High Energy

Time series defined by using: EPOCH

ted_pro_eflux_bg_tel30_hi_cps

Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV

PT2S

0.0

1.99885e+06

-1.0e+31

Pitch Angle, Satellite, 0° Telescope

Time series defined by using: EPOCH

ted_alpha_0_sat

Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope

PT2S

°

0.0174532925>rad

0.0

180.0

-1.0e+31

Pitch Angle, Satellite, 30° Telescope

Time series defined by using: EPOCH

ted_alpha_30_sat

Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope

PT2S

°

0.0174532925>rad

0.0

180.0

-1.0e+31

Pitch Angle, Footpoint, 0° Telescope

Time series defined by using: EPOCH

ted_alpha_0_foot

Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope

PT2S

°

0.0174532925>rad

0.0

180.0

-1.0e+31

Pitch Angle, Footpoint, 30° Telescope

Time series defined by using: EPOCH

ted_alpha_30_foot

Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope

PT2S

°

0.0174532925>rad

0.0

180.0

-1.0e+31

TED IFC Flag

Time series defined by using: EPOCH

ted_ifc_on

Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On

PT2S

0

1

255

Electron Integral Flux, 0#176; Telescope

Time series defined by using: EPOCH

mep_ele_flux_stackt0

Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux.

PT2S

(cm^2 s sr)^-1

1e4>(m^2 s sr)^-1

-1.0e+31

Electron Integral Flux, 0#176; Telescope, Percent Error

Time series defined by using: EPOCH

mep_ele_flux_err_stackt0

Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err.

PT2S

-1.0e+31

Electron Integral Flux, 90#176; Telescope

Time series defined by using: EPOCH

mep_ele_flux_stackt90

Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux.

PT2S

(cm^2 s sr)^-1

1e4>(m^2 s sr)^-1

-1.0e+31

Electron Integral Flux, 90#176; Telescope, Percent Error

Time series defined by using: EPOCH

mep_ele_flux_err_stackt90

Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err.

PT2S

-1.0e+31

Electron Integral Flux, Spectrograms

Time series defined by using: EPOCH

mep_ele_flux

Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000]

PT2S

(cm^2 s sr)^-1

1e4>(m^2 s sr)^-1

-1.0e+31

Electron Integral Flux, Percent Error, Spectrograms

Time series defined by using: EPOCH

mep_ele_flux_err

Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000]

PT2S

-1.0e+31

Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV

Time series defined by using: EPOCH

mep_ele_flux_t_stacke1

Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux.

PT2S

(cm^2 s sr)^-1

1e4>(m^2 s sr)^-1

-1.0e+31

Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV

Time series defined by using: EPOCH

mep_ele_flux_t_stacke2

Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux.

PT2S

(cm^2 s sr)^-1

1e4>(m^2 s sr)^-1

-1.0e+31

Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV

Time series defined by using: EPOCH

mep_ele_flux_t_stacke3

Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux.

PT2S

(cm^2 s sr)^-1

1e4>(m^2 s sr)^-1

-1.0e+31

Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV

Time series defined by using: EPOCH

mep_ele_flux_t_stacke4

Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux.

PT2S

(cm^2 s sr)^-1

1e4>(m^2 s sr)^-1

-1.0e+31

Electron Integral Flux, Energies

mep_ele_int_energies

Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV

PT2S

keV

1.60218e-16>J

30.0

800.0

-1.0e+31

MEPED Telescope Directions

mep_telescopes

Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes

PT2S

0.0

90.0

-1.0e+31

Proton Differential Flux, 0#176; Telescope

Time series defined by using: EPOCH

mep_pro_flux_stackt0

Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux.

PT2S

(cm^2 s sr keV)^-1

6.24161e19>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, 0#176; Telescope, Percent Error

Time series defined by using: EPOCH

mep_pro_flux_err_stackt0

Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err.

PT2S

-1.0e+31

Proton Differential Flux, 90#176; Telescope

Time series defined by using: EPOCH

mep_pro_flux_stackt90

Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux.

PT2S

(cm^2 s sr keV)^-1

6.24161e19>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, 90#176; Telescope, Percent Error

Time series defined by using: EPOCH

mep_pro_flux_err_stackt90

Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err.

PT2S

-1.0e+31

Proton Differential Flux, Spectrograms, >40 keV to >612 keV

Time series defined by using: EPOCH

mep_pro_flux

Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00]

PT2S

(cm^2 s sr keV)^-1

6.24161e19>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, Percent Error, Spectrograms

Time series defined by using: EPOCH

mep_pro_flux_err

Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux]

PT2S

-1.0e+31

Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV

Time series defined by using: EPOCH

mep_pro_flux_t_stacke1

Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux.

PT2S

(cm^2 s sr keV)^-1

6.24161e19>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV

Time series defined by using: EPOCH

mep_pro_flux_t_stacke2

Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux.

PT2S

(cm^2 s sr keV)^-1

6.24161e19>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV

Time series defined by using: EPOCH

mep_pro_flux_t_stacke3

Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux.

PT2S

(cm^2 s sr keV)^-1

6.24161e19>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV

Time series defined by using: EPOCH

mep_pro_flux_t_stacke4

Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux.

PT2S

(cm^2 s sr keV)^-1

6.24161e19>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV

Time series defined by using: EPOCH

mep_pro_flux_t_stacke5

Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV

This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux.

PT2S

(cm^2 s sr keV)^-1

6.24161e19>(m^2 s sr J)^-1

-1.0e+31

Proton Differential Flux, Energies

mep_pro_diff_energies

Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV

PT2S

keV

1.60218e-16>J

30.0

4000.0

-1.0e+31

Proton Integral Flux, 0#176; and 90#176; Telescopes

Time series defined by using: EPOCH

mep_pro_flux_p6

Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV

PT2S

(cm^2 s sr)^-1

1e4>(m^2 s sr)^-1

0.0

1.0e+10

-1.0e+31

Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error

Time series defined by using: EPOCH

mep_pro_flux_p6_err

Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV

PT2S

1.0e-05

1.0e+10

-1.0e+31

Proton Differential Flux, Omnidirectional Telescope

Time series defined by using: EPOCH

mep_omni_flux_stack

Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux.

PT2S

(cm^2 s sr MeV)^-1

6.24161e22>(m^2 s sr J)^-1

0.0

1.0e+10

-1.0e+31

Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy

Time series defined by using: EPOCH

mep_omni_flux

Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV

PT2S

(cm^2 s sr MeV)^-1

6.24161e22>(m^2 s sr J)^-1

0.0

1.0e+10

-1.0e+31

Proton Differential Flux, Omnidirectional Telescope, Energies

mep_omni_energies

Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV

PT2S

MeV

1.60218e-13>J

20.0

200.0

-1.0e+31

Fit Flag for Proton Differential Flux, Fit Flag

Time series defined by using: EPOCH

mep_omni_flux_flag_fit

Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag

PT2S

0

1

255

Fit Flag for Proton Differential Flux, Iteration Limit

Time series defined by using: EPOCH

mep_omni_flux_flag_iter_lim

Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit

PT2S

0

1

255

Omnidirectional Gamma

Time series defined by using: EPOCH

mep_omni_gamma_stack

Medium Energy Proton Detector, MEPED, Omnidirectional Gamma

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma.

PT2S

-50.0

1.0e+10

-1.0e+31

Omnidirectional Gamma, Spectrograms

Time series defined by using: EPOCH

mep_omni_gamma

Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy

PT2S

-50.0

1.0e+10

-1.0e+31

Pitch Angle at the Satellite, 0° Telescope

Time series defined by using: EPOCH

meped_alpha_0_sat

Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope

PT2S

°

0.0174532925>rad

0.0

180.0

-1.0e+31

Pitch Angle at the Satellite, 90° Telescope

Time series defined by using: EPOCH

meped_alpha_90_sat

Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope

PT2S

°

0.0174532925>rad

0.0

180.0

-1.0e+31

Pitch Angle at the Satellite Footpoint, 0° Telescope

Time series defined by using: EPOCH

meped_alpha_0_foot

Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope

PT2S

°

0.0174532925>rad

0.0

180.0

-1.0e+31

Pitch Angle at the Satellite Footpoint, 90° Telescope

Time series defined by using: EPOCH

meped_alpha_90_foot

Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope

PT2S

°

0.0174532925>rad

0.0

180.0

-1.0e+31

MEPED IFC Flag

Time series defined by using: EPOCH

mep_ifc_on

Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On

PT2S

0

1

255

Satellite Designation ID

Time series defined by using: EPOCH

satid

Satellite Designation Identifier

PT2S

1.0

40.0

-2.14748e+09

Satellite Orbital Direction

Time series defined by using: EPOCH

sat_direction

Satellite Orbital Direction: 0=North, 1=South

PT2S

0.0

1.0

-2.14748e+09

Satellite Geodetic Altitude

Time series defined by using: EPOCH

alt

Satellite Geodetic, WGS84, Altitude

PT2S

km

1e3>m

800.0

1000.0

-1.0e+31

Satellite Geodetic Latitude

Time series defined by using: EPOCH

lat

Satellite Geodetic, WGS84, Latitude

PT2S

°

0.0174532925>rad

-90.0

90.0

-1.0e+31

Satellite Geodetic Longitude

Time series defined by using: EPOCH

lon

Satellite Geodetic, WGS84, Longitude

PT2S

°

0.0174532925>rad

0.0

360.0

-1.0e+31

Satellite Magnetic Latitude

Time series defined by using: EPOCH

mag_lat_sat

Satellite Magnetic, MAG, Latitude

PT2S

°

0.0174532925>rad

-90.0

90.0

-1.0e+31

Satellite Magnetic Longitude

Time series defined by using: EPOCH

mag_lon_sat

Satellite Magnetic, MAG, Longitude

PT2S

°

0.0174532925>rad

0.0

360.0

-1.0e+31

Satellite L Shell, IGRF

Time series defined by using: EPOCH

l_igrf

Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model

PT2S

0.0

20.0

-1.0e+31

Satellite Magnetic Local Time

Time series defined by using: EPOCH

mlt

Satellite Magnetic Local Time, MLT, in Hours

PT2S

h

3600>s

0.0

25.0

-1.0e+31

Footpoint Geodetic Latitude

Time series defined by using: EPOCH

geod_lat_foot

Geodetic, WGS84, Latitude, Footpoint of Field Line

PT2S

°

0.0174532925>rad

-90.0

90.0

-1.0e+31

Footpoint Geodetic Longitude

Time series defined by using: EPOCH

geod_lon_foot

Geodetic, WGS84, Longitude, Footpoint of Field Line

PT2S

°

0.0174532925>rad

0.0

360.0

-1.0e+31

Footpoint AACGM Latitude

Time series defined by using: EPOCH

aacgm_lat_foot

Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line

PT2S

°

0.0174532925>rad

-90.0

90.0

-1.0e+31

Footpoint AACGM Longitude

Time series defined by using: EPOCH

aacgm_lon_foot

Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line

PT2S

°

0.0174532925>rad

0.0

360.0

-1.0e+31

Footpoint Magnetic Latitude

Time series defined by using: EPOCH

mag_lat_foot

Magnetic, MAG, Latitude, Footpoint of Field Line

PT2S

°

0.0174532925>rad

-90.0

90.0

-1.0e+31

Footpoint Magnetic Longitude

Time series defined by using: EPOCH

mag_lon_foot

Magnetic, MAG, Longitude, Footpoint of Field Line

PT2S

°

0.0174532925>rad

0.0

360.0

-1.0e+31

Satellite Magnetic Field Radial Component

Time series defined by using: EPOCH

br_sat

Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Magnetic Field Theta Component

Time series defined by using: EPOCH

bt_sat

Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Magnetic Field Phi Component

Time series defined by using: EPOCH

bp_sat

Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Total Magnetic Field

Time series defined by using: EPOCH

btot_sat

Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Magnetic Field Radial Component, Footpoint

Time series defined by using: EPOCH

br_foot

Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Magnetic Field Theta Component, Footpoint

Time series defined by using: EPOCH

bt_foot

Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Magnetic Field Phi Component, Footpoint

Time series defined by using: EPOCH

bp_foot

Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Total Magnetic Field, Footpoint

Time series defined by using: EPOCH

btot_foot

Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Position, X Component, IGRF

Time series defined by using: EPOCH

bx_sat

Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Position, Y Component, IGRF

Time series defined by using: EPOCH

by_sat

Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Position, Z Component, IGRF

Time series defined by using: EPOCH

bz_sat

Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Altitude, Text Label

Time series defined by using: EPOCH

alt_text

Satellite Geodetic Altitude, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt.

PT2S

km

1e3>m

800.0

1000.0

-1.0e+31

Geodetic Latitude, Text Label

Time series defined by using: EPOCH

lat_text

Satellite Geodetic Latitude, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat.

PT2S

°

0.0174532925>rad

-90.0

90.0

-1.0e+31

Geodetic Longitude, Text Label

Time series defined by using: EPOCH

lon_text

Satellite Geodetic Longitude, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon.

PT2S

°

0.0174532925>rad

0.0

360.0

-1.0e+31

L Shell, IGRF, Text Label

Time series defined by using: EPOCH

l_igrf_text

Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf.

PT2S

0.0

20.0

-1.0e+31

Magnetic Local Time, Text Label

Time series defined by using: EPOCH

mlt_text

Satellite Magnetic Local Time, MLT in Hours, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt.

PT2S

h

3600>s

0.0

25.0

-1.0e+31

Footpoint Geodetic Latitude, Text Label

Time series defined by using: EPOCH

geod_lat_foot_text

Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot.

PT2S

°

0.0174532925>rad

-90.0

90.0

-1.0e+31

Footpoint Geodetic Longitude, Text Label

Time series defined by using: EPOCH

geod_lon_foot_text

Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot.

PT2S

°

0.0174532925>rad

0.0

360.0

-1.0e+31

Footpoint AACGM Latitude, Text Label

Time series defined by using: EPOCH

aacgm_lat_foot_text

Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot.

PT2S

°

0.0174532925>rad

-90.0

90.0

-1.0e+31

Footpoint AACGM Longitude, Text Label

Time series defined by using: EPOCH

aacgm_lon_foot_text

Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot.

PT2S

°

0.0174532925>rad

0.0

360.0

-1.0e+31

Footpoint Magnetic Latitude, Text Label

Time series defined by using: EPOCH

mag_lat_foot_text

Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot.

PT2S

°

0.0174532925>rad

-90.0

90.0

-1.0e+31

Footpoint Magnetic Longitude, Text Label

Time series defined by using: EPOCH

mag_lon_foot_text

Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot.

PT2S

°

0.0174532925>rad

0.0

360.0

-1.0e+31

Satellite Magnetic Field Radial Component, Text Label

Time series defined by using: EPOCH

br_sat_text

Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat.

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Magnetic Field Theta Component, Text Label

Time series defined by using: EPOCH

bt_sat_text

Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat.

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Magnetic Field Phi Component, Text Label

Time series defined by using: EPOCH

bp_sat_text

Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat.

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Total Magnetic Field, Text Label

Time series defined by using: EPOCH

btot_sat_text

Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat.

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Magnetic Field Radial Component, Footpoint, Text Label

Time series defined by using: EPOCH

br_foot_text

Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot.

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Magnetic Field Theta Component, Footpoint, Text Label

Time series defined by using: EPOCH

bt_foot_text

Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot.

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Magnetic Field Phi Component, Footpoint, Text Label

Time series defined by using: EPOCH

bp_foot_text

Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot.

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Total Magnetic Field, Footpoint, Text Label

Time series defined by using: EPOCH

btot_foot_text

Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot.

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Position, X Component, IGRF, Text Label

Time series defined by using: EPOCH

bx_sat_text

Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat.

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Position, Y Component, IGRF, Text Label

Time series defined by using: EPOCH

by_sat_text

Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat.

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31

Satellite Position, Z Component, IGRF, Text Label

Time series defined by using: EPOCH

bz_sat_text

Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label

This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat.

PT2S

nT

1e-9>T

-100000.0

100000.0

-1.0e+31