Polar (Charge and Mass Magnetospheric Ion Composition) CAMMICE 3-Min Key Parameters

https://doi.org/10.48322/88r3-b823

2023-07-30 12:34:56.789

Polar CAMMICE (Charge and Mass Magnetospheric Ion Composition) Key Parameters, H, He, O Count Rates

spase://VSPO/NumericalData/P_POLAR_HDR_CAMMICE-PARAM_204S

spase://ViRBO/NumericalData/Polar/CAMMICE/MICS/PT3M

spase://VSPO/NumericalData/POLAR/CAMMICE/KeyParameters/PT204S

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CSV

PT204S

Time

Epoch

Time of data collection

This is time when data collection started. Derived from Absolute Time Code of telemetry, corrected for lag between data collection and transmission.

UT

01-Jan-1990 00:00:00.000

31-Dec-2029 23:59:59.999

31-Dec-9999 23:59:59.999

Measurement start offset

Epoch_DELTA_MINUS

Offset from Epoch to actual start of measurement

Difference between Epoch and start of measurement. Identically zero by definition of Epoch. Treat as a time difference in millisconds. NOT an uncertainty in timebase.

ms

01-Jan-0000 00:00:00.000

01-Jan-0000 23:59:59.999

31-Dec-9999 23:59:59.999

Measurement end offset

Epoch_DELTA_PLUS

Offset from Epoch to end of measurement

Difference between Epoch and end of measurement. This is the length of time over which data are sampled/averaged. Treat as a time difference in millisconds. NOT an uncertainty in timebase.

ms

01-Jan-0000 00:00:00.000

01-Jan-0000 23:59:59.999

31-Dec-9999 23:59:59.999

Pitch angle

Alpha

Pitch angle of measured fluxes.

Gyrotropy is assumed and measurements are only made in spin plane of spacecraft. Fluxes may be averaged across several measurements with the same pitch angle.

degrees

Pitch angle bin width

Alpha_DELTA

Distance from center of PA bin to edge.

NOT uncertainty in PA, but binning of derived PA (which is assumed perfectly known, but actually approximately +/- 5 degrees because of finite sector size).

degrees

Energy

Energy

Energy

Really ESA potential, i.e. energy per charge (E/q) of incident particles.

keV/e

Energy channel half-width

Energy_DELTA

Energy channel half-width

Really ESA potential, i.e. energy per charge (E/q) of incident particles. Based on delE/E of 0.1591.

keV/e

Directional H+ flux

HFlux

H+ flux by pitch angle

This is the "four parameter" H+ flux; for lower energies H0Flux may be better as it does not require a SSD signal.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux uncertainty

HFlux_DELTA

Directional H+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional He+ flux

HepFlux

He+ flux by pitch angle

This is the "four parameter" He+ flux; for lower energies He0Flux may be better as it does not require a SSD signal.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux uncertainty

HepFlux_DELTA

Directional He+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional He++ flux

AlphaFlux

He++ flux by pitch angle

This is the "four parameter" He++ flux; for lower energies He0Flux may be better as it does not require a SSD signal.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux uncertainty

AlphaFlux_DELTA

Directional He++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional O+/++ flux

OpFlux

O+/++ flux by pitch angle

Low charge states (1,2), calibrated for O+. This is the "four parameter" O+/++ flux; for lower energies O0Flux may be better as it does not require a SSD signal.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+/++ flux uncertainty

OpFlux_DELTA

Directional O+/++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional O3+ flux

O3pFlux

O3+ flux by pitch angle

Includes all high charge states (3+); calibrated for O3+.This is the "four parameter" O3+ flux; for lower energies O0Flux may be better as it does not require a SSD signal.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O3+ flux uncertainty

O3pFlux_DELTA

Directional O3+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional H+ flux (zero energy)

H0Flux

H+ flux by pitch angle with no energy signal

Only contains flux from ions which have a start/stop signal but no postacceleration energy measurement.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H0 flux uncertainty

H0Flux_DELTA

Directional H0 flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional He flux (zero energy)

He0Flux

He flux by pitch angle with no energy signal

Only contains flux from ions which have a start/stop signal but no postacceleration energy measurement. All charge states, calibrated for He+.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He0 flux uncertainty

He0Flux_DELTA

Directional He0 flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional O flux (zero energy)

O0Flux

O flux by pitch angle with no energy signal

Only contains flux from ions which have a start/stop signal but no postacceleration energy measurement. All charge states. Calibrated for O+.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O0 flux uncertainty

O0Flux_DELTA

Directional O0 flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Total ion flux (DCR)

DCRFlux

Directional total (double coincidence) ion flux

Contains all ions, but calibrated for H+. All ions with valid start and stop signals, regardless of valid energy measurement (Double Coincidence Rate). Binned by pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Total ion flux uncertainty

DCRFlux_DELTA

Directional total ion flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Total ion flux (FSR)

FSRFlux

Directional total (front singles) ion flux

Contains all ions, but calibrated for H+. All ions with valid start signals,regardless of valid energy measurement or stop signal. (Front Singles Rate). Binned by pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Total ion flux uncertainty

FSRFlux_DELTA

Directional total ion flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux

HFluxSpin

Spin-averaged H+ flux

This is the "four parameter" H+ flux; for lower energies H0FluxSpin may be better as it does not require a SSD signal. Spin-integrated on board, not integrated over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux uncertainty

HFluxSpin_DELTA

Spin-averaged H+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux

HepFluxSpin

Spin-averaged He+ flux

This is the "four parameter" He+ flux; for lower energies He0FluxSpin may be better as it does not require a SSD signal. Spin-integrated on board, not integrated over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux uncertainty

HepFluxSpin_DELTA

Spin-averaged He+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux

AlphaFluxSpin

Spin-averaged He++ flux

This is the "four parameter" He++ flux; for lower energies He0FluxSpin may be better as it does not require a SSD signal. Spin-integrated on board, not integrated over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux uncertainty

AlphaFluxSpin_DELTA

Spin-averaged He++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+/++ flux

OpFluxSpin

Spin-averaged O+/++ flux

Low charge states (1,2), calibrated for O+. This is the "four parameter" O+/++ flux; for lower energies O0FluxSpin may be better as it does not require a SSD signal. Spin-integrated on board, not integrated over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+/++ flux uncertainty

OpFluxSpin_DELTA

Spin-averaged O+/++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O3+ flux

O3pFluxSpin

Spin-averaged O3+ flux

Includes all high charge states (3+); calibrated for O3+.This is the "four parameter" O3+ flux; for lower energies O0FluxSpin may be better as it does not require a SSD signal. Spin-integrated on board, not integrated over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O3+ flux uncertainty

O3pFluxSpin_DELTA

Spin-averaged O3+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux (zero energy)

H0FluxSpin

Spin-averaged H+ flux with no energy signal

Only contains flux from ions which have a start/stop signal but no postacceleration energy measurement. Spin-integrated on board, not integrated over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H0 flux uncertainty

H0FluxSpin_DELTA

Spin-averaged H0 flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He flux (zero energy)

He0FluxSpin

Spin-averaged He flux with no energy signal

Only contains flux from ions which have a start/stop signal but no postacceleration energy measurement. All charge states, calibrated for He+. Spin-integrated on board, not integrated over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He0 flux uncertainty

He0FluxSpin_DELTA

Spin-averaged He0 flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O flux (zero energy)

O0FluxSpin

Spin-averaged O flux with no energy signal

Only contains flux from ions which have a start/stop signal but no postacceleration energy measurement. All charge states. Calibrated for O+. Spin-integrated on board, not integrated over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O0 flux uncertainty

O0FluxSpin_DELTA

Spin-averaged O0 flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional H+ count rate

HCounts

H+ count rate by pitch angle

This is the "four parameter" H+ flux; for lower energies H0Counts may be better as it does not require a SSD signal.

sec!E-1!N

H+ count rate uncertainty

HCounts_DELTA

Directional H+ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Directional He+ count rate

HepCounts

He+ count rate by pitch angle

This is the "four parameter" He+ count rate; for lower energies He0Counts may be better as it does not require a SSD signal.

sec!E-1!N

He+ count rate uncertainty

HepCounts_DELTA

Directional He+ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Directional He++ count rate

AlphaCounts

He++ count rate by pitch angle

This is the "four parameter" He++ count rate; for lower energies He0Counts may be better as it does not require a SSD signal.

sec!E-1!N

He++ count rate uncertainty

AlphaCounts_DELTA

Directional He++ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Directional O+/++ count rate

OpCounts

O+/++ count rate by pitch angle

Low charge states (1,2). This is the "four parameter" O+/++ count rate; for lower energies O0Counts may be better as it does not require a SSD signal.

sec!E-1!N

O+/++ count rate uncertainty

OpCounts_DELTA

Directional O+/++ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Directional O3+ count rate

O3pCounts

O3+ count rate by pitch angle

Includes all high charge states (3+).This is the "four parameter" O3+ count rate; for lower energies O0Counts may be better as it does not require a SSD signal.

sec!E-1!N

O3+ count rate uncertainty

O3pCounts_DELTA

Directional O3+ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Directional CN+/++ count rate

CNpCounts

CN+/++ count rate by pitch angle

C or N (not CN molecule.) Low charge states (1,2).

sec!E-1!N

CN+/++ count rate uncertainty

CNpCounts_DELTA

Directional CN+/++ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Directional H+ count rate (zero energy)

H0Counts

H+ count rate by pitch angle with no energy signal

Only contains counts from ions which have a start/stop signal but no postacceleration energy measurement.

sec!E-1!N

H+ count rate uncertainty

H0Counts_DELTA

Directional H0 count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Directional He count rate (zero energy)

He0Counts

He count rate by pitch angle with no energy signal

Only contains counts from ions which have a start/stop signal but no postacceleration energy measurement. All charge states.

sec!E-1!N

H+ count rate uncertainty

He0Counts_DELTA

Directional He0 count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Directional O count rate (zero energy)

O0Counts

O count rate by pitch angle with no energy signal

Only contains counts from ions which have a start/stop signal but no postacceleration energy measurement. All charge states.

sec!E-1!N

H+ count rate uncertainty

O0Counts_DELTA

Directional O0 count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Total ion count rate (DCR)

DCRCounts

Total (double coincidence) ion count rate

All ions with valid start and stop signals, regardless of valid energy measurement (Double Coincidence Rate). Binned by pitch angle.

sec!E-1!N

Total ion count rate uncertainty

DCRCounts_DELTA

Directional total ion count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Total ion count rate (FSR)

FSRCounts

Total (front singles) ion count rate

Contains all ions, but calibrated for H+. All ions with valid start signals,regardless of valid energy measurement or stop signal. (Front Singles Rate). Binned by pitch angle.

sec!E-1!N

Total ion count rate uncertainty

FSRCounts_DELTA

Directional total ion count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Directional CN3+ count rate

CN3pCounts

CN3+ count rate by pitch angle

C or N (not CN molecule.) High charge states (3+). Only available through 1997 March 4.

sec!E-1!N

CN3+ count rate uncertainty

CN3pCounts_DELTA

Directional CN3+ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Directional Ne-Si count rate

NeSiCounts

Ne-Si count rate by pitch angle

Ne through Si, all charge states. Only available through 1997 March 4.

sec!E-1!N

Ne-Si count rate uncertainty

NeSiCounts_DELTA

Directional Ne-Si count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Directional S-Ni count rate

SNiCounts

S-Ni count rate by pitch angle

S through Ni, all charge states. Only available through 1997 March 4.

sec!E-1!N

S-Ni count rate uncertainty

SNiCounts_DELTA

Directional S-Ni count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

H+ count rate

HCountsSpin

Spin-averaged H+ count rate

This is the "four parameter" H+ count rate; for lower energies H0CountsSpin may be better as it does not require a SSD signal. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

H+ count rate uncertainty

HCountsSpin_DELTA

Spin-averaged H+ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

He+ count rate

HepCountsSpin

Spin-averaged He+ count rate

This is the "four parameter" He+ count rate; for lower energies He0CountsSpin may be better as it does not require a SSD signal. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

He+ count rate uncertainty

HepCountsSpin_DELTA

Spin-averaged He+ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

He++ count rate

AlphaCountsSpin

Spin-averaged He++ count rate

This is the "four parameter" He++ count rate; for lower energies He0CountsSpin may be better as it does not require a SSD signal. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

He++ count rate uncertainty

AlphaCountsSpin_DELTA

Spin-averaged He++ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

O+/++ count rate

OpCountsSpin

Spin-averaged O+/++ count rate

Low charge states (1,2), calibrated for O+. This is the "four parameter" O+/++ count rate; for lower energies O0CountsSpin may be better as it does not require a SSD signal. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

O+/++ count rate uncertainty

OpCountsSpin_DELTA

Spin-averaged O+/++ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

O3+ count rate

O3pCountsSpin

Spin-averaged O3+ count rate

Includes all high charge states (3+); calibrated for O3+.This is the "four parameter" O3+ count rate; for lower energies O0CountsSpin may be better as it does not require a SSD signal. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

O3+ count rate uncertainty

O3pCountsSpin_DELTA

Spin-averaged O3+ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

CN+/++ count rate

CNpCountsSpin

Spin-averaged CN+/++ count rate

C or N (not CN molecule.) Low charge states (1,2). Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

CN+/++ count rate uncertainty

CNpCountsSpin_DELTA

Spin-averaged CN+/++ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

H+ count rate (zero energy)

H0CountsSpin

Spin-averaged H+ count rate with no energy signal

Only contains count rate from ions which have a start/stop signal but no postacceleration energy measurement. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

H0 count rate uncertainty

H0CountsSpin_DELTA

Spin-averaged H0 count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

He count rate (zero energy)

He0CountsSpin

Spin-averaged He count rate with no energy signal

Only contains count rate from ions which have a start/stop signal but no postacceleration energy measurement. All charge states, calibrated for He+. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

He0 count rate uncertainty

He0CountsSpin_DELTA

Spin-averaged He0 count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

O count rate (zero energy)

O0CountsSpin

Spin-averaged O count rate with no energy signal

Only contains count rate from ions which have a start/stop signal but no postacceleration energy measurement. All charge states. Calibrated for O+. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

O0 count rate uncertainty

O0CountsSpin_DELTA

Spin-averaged O0 count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Total ion count rate (DCR)

DCRCountsSpin

Spin-averaged total (double coincidence) ion count rate

Contains all ions, but calibrated for H+. All ions with valid start and stop signals, regardless of valid energy measurement (Double Coincidence Rate). Integrated over pitch angle during processing, not spin-averaged.

sec!E-1!N

Total ion count rate uncertainty

DCRCountsSpin_DELTA

Spin-averaged total ion count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Total ion count rate (FSR)

FSRCountsSpin

Spin-averaged total (front singles) ion count rate

Contains all ions, but calibrated for H+. All ions with valid start signals,regardless of valid energy measurement or stop signal. (Front Singles Rate). Integrated over pitch angle during processing, not spin-averaged.

sec!E-1!N

Total ion count rate uncertainty

FSRCountsSpin_DELTA

Spin-averaged total ion count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

CN3+ count rate

CN3pCountsSpin

Spin-averaged CN3+ count rate

C or N (not CN molecule.) High charge states (3+). Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

CN3+ count rate uncertainty

CN3pCountsSpin_DELTA

Spin-averaged CN3+ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Ne-Si count rate

NeSiCountsSpin

Spin-averaged Ne-Si count rate

Ne through Si, all charge states. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

Ne-Si count rate uncertainty

NeSiCountsSpin_DELTA

Spin-averaged Ne-Si count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

S-Ni count rate

SNiCountsSpin

Spin-averaged S-Ni count rate

S through Ni, all charge states. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

S-Ni count rate uncertainty

SNiCountsSpin_DELTA

Spin-averaged S-Ni count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

3He+ count rate

He3CountsSpin

Spin-averaged 3He+ count rate

Helium-3 single charged. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

3He+ count rate uncertainty

He3CountsSpin_DELTA

Spin-averaged 3He+ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

H2+ count rate

H2CountsSpin

Spin-averaged H2+ count rate

H2 molecule single charged. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

H2+ count rate uncertainty

H2CountsSpin_DELTA

Spin-averaged H2+ count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Molecule count rate

MolCountsSpin

Spin-averaged molecule count rate

NO N2 O2 CO2 molecule single charged. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

Molecule count rate uncertainty

MolCountsSpin_DELTA

Spin-averaged molecule count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Other species count rate

OtherCountsSpin

Spin-averaged other species count rate

All species not in another rate scaler. Spin-integrated on board, not integrated over pitch angle.

sec!E-1!N

Others count rate uncertainty

OtherCountsSpin_DELTA

Spin-averaged others count rate uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

sec!E-1!N

Matrix scaler counts

MatrixCounts

Matrix scaler counts

Number of counts in each matrix scaler.

Matrix scaler count uncertainty

MatrixCounts_DELTA

Matrix scaler count uncertainty

Combines uncertainty from RS compression and Poisson stats.

Mass

Mass

Expected mass for mass group.

Atomic mass usually associated with a mass group (upper groups are Ne,S,Fe,Zn). Negative values used for "zero energy" groups.

amu

M/Q

MperQ

Mass per charge

Value at center of m/q bin.First two bins are junk, TOF<1; last bin is TOF>=1022

amu/e

M/Q half-width

MperQ_DELTA

Mass per charge bin half-width

amu/e

Directional H+ flux

HTotal

H+ combined flux by pitch angle

Combines HFlux and H0Flux to cover entire energy range. Chooses smallest uncertainty for each energy of HFlux, H0Flux, or their mean.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux uncertainty

HTotal_DELTA

Directional combined H+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional He+ flux

HepTotal

He+ combined flux by pitch angle

Combines HepFlux and He0Flux to cover entire energy range. Chooses smallest uncertainty for each energy of HeFlux, He0Flux, or their mean. He0Flux only selected if +1 charge dominates.Calibrated for He+.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux uncertainty

HepTotal_DELTA

Directional combined He+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional He++ flux

AlphaTotal

He++ combined flux by pitch angle

Combines AlphaFlux and He0Flux to cover entire energy range. Chooses smallest uncertainty for each energy of AlphaFlux, He0Flux, or their mean. He0Flux only selected if +2 charge dominates.Calibrated for He+2.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux uncertainty

AlphaTotal_DELTA

Directional combined He++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional O+ flux

OpTotal

O+ combined flux by pitch angle

Combines OpFlux and O0Flux to cover entire energy range. Chooses smallest uncertainty for each energy of OFlux, O0Flux, or their mean. O0Flux only selected if +1 charge dominates.Calibrated for O+.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+/++ flux uncertainty

OpTotal_DELTA

Directional combined O+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional O++ flux

OppTotal

O++ combined flux by pitch angle

Combines OpFlux and O0Flux to cover entire energy range. Chooses smallest uncertainty for each energy of OFlux, O0Flux, or their mean. O0Flux only selected if +2 charge dominates. Calibrated for O+2.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O++ flux uncertainty

OppTotal_DELTA

Directional combined O++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Directional O>=3+ flux

OHiTotal

O>=3+ flux by pitch angle

Includes all high charge states (3+); calibrated for dominant state.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O>=3+ flux uncertainty

OHiTotal_DELTA

Directional combined O>=3+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux

HTotalSpin

Spin-averaged H+ combined flux

Combines HFluxSpin and H0FluxSpin to cover entire energy range. Chooses smallest uncertainty for each energy of HFlux, H0Flux, or their mean.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux uncertainty

HTotalSpin_DELTA

Spin-averaged combined H+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux

HepTotalSpin

Spin-averaged He+ combined flux

Combines HepFluxSpin and He0FluxSpin to cover entire energy range. Chooses smallest uncertainty for each energy of HeFlux, He0Flux, or their mean. He0FluxSpin only selected if +1 charge dominates.Calibrated for He+.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux uncertainty

HepTotalSpin_DELTA

Spin-averaged combined He+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux

AlphaTotalSpin

Spin-averaged He++ combined flux

Combines AlphaFluxSpin and He0FluxSpin to cover entire energy range. Chooses smallest uncertainty for each energy of AlphaFluxSpin, He0FluxSpin, or their mean. He0FluxSpin only selected if +2 charge dominates. Calibrated for He+2.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux uncertainty

AlphaTotalSpin_DELTA

Spin-averaged combined He++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+ flux

OpTotalSpin

Spin-averaged O+ combined flux

Combines OpFluxSpin and O0FluxSpin to cover entire energy range. Chooses smallest uncertainty for each energy of OFlux, O0Flux, or their mean. O0FluxSpin only selected if +1 charge dominates.Calibrated for O+.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+/++ flux uncertainty

OpTotalSpin_DELTA

Spin-averaged combined O+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O++ flux

OppTotalSpin

Spin-averaged O++ combined flux

Combines OpFluxSpin and O0FluxSpin to cover entire energy range. Chooses smallest uncertainty for each energy of OFlux, O0Flux, or their mean. O0FluxSpin only selected if +2 charge dominates. Calibrated for O+2.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O++ flux uncertainty

OppTotalSpin_DELTA

Spin-averaged combined O++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O>=3+ flux

OHiTotalSpin

Spin-averaged O>=3+ flux

Includes all high charge states (3+); calibrated for dominant state.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O>=3+ flux uncertainty

OHiTotalSpin_DELTA

Spin-averaged combined O>=3+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux

HTotalOmni

Omnidirectional H+ combined flux

Averaged over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux uncertainty

HTotalOmni_DELTA

Omnidirectional combined H+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux

HepTotalOmni

Omnidirectional He+ combined flux

Averaged over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux uncertainty

HepTotalOmni_DELTA

Omnidirectional combined He+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux

AlphaTotalOmni

Omnidirectional He++ combined flux

Averaged over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux uncertainty

AlphaTotalOmni_DELTA

Omnidirectional combined He++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+ flux

OpTotalOmni

Omnidirectional O+ combined flux

Averaged over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+/++ flux uncertainty

OpTotalOmni_DELTA

Omnidirectional combined O+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O++ flux

OppTotalOmni

Omnidirectional O++ combined flux

Averaged over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O++ flux uncertainty

OppTotalOmni_DELTA

Omnidirectional combined O++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O>=3+ flux

OHiTotalOmni

Omnidirectional O>=3+ flux

Averaged over pitch angle.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O>=3+ flux uncertainty

OHiTotalOmni_DELTA

Omnidirectional combined O>=3+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux

HTotalPar

Field-aligned H+ combined flux

Averaged over pitch angle 0-30, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux uncertainty

HTotalPar_DELTA

Field-aligned combined H+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux

HepTotalPar

Pardirectional He+ combined flux

Averaged over pitch angle 0-30, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux uncertainty

HepTotalPar_DELTA

Field-aligned combined He+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux

AlphaTotalPar

Field-aligned He++ combined flux

Averaged over pitch angle 0-30, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux uncertainty

AlphaTotalPar_DELTA

Field-aligned combined He++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+ flux

OpTotalPar

Field-aligned O+ combined flux

Averaged over pitch angle 0-30, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+/++ flux uncertainty

OpTotalPar_DELTA

Field-aligned combined O+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O++ flux

OppTotalPar

Field-aligned O++ combined flux

Averaged over pitch angle 0-30, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O++ flux uncertainty

OppTotalPar_DELTA

Field-aligned combined O++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O>=3+ flux

OHiTotalPar

Field-aligned O>=3+ flux

Averaged over pitch angle 0-30, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O>=3+ flux uncertainty

OHiTotalPar_DELTA

Field-aligned combined O>=3+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux

HTotalAnti

Field-anti-aligned H+ combined flux

Averaged over pitch angle 150-180, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux uncertainty

HTotalAnti_DELTA

Field-anti-aligned combined H+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux

HepTotalAnti

Antidirectional He+ combined flux

Averaged over pitch angle 150-180, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux uncertainty

HepTotalAnti_DELTA

Field-anti-aligned combined He+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux

AlphaTotalAnti

Field-anti-aligned He++ combined flux

Averaged over pitch angle 150-180, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux uncertainty

AlphaTotalAnti_DELTA

Field-anti-aligned combined He++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+ flux

OpTotalAnti

Field-anti-aligned O+ combined flux

Averaged over pitch angle 150-180, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+/++ flux uncertainty

OpTotalAnti_DELTA

Field-anti-aligned combined O+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O++ flux

OppTotalAnti

Field-anti-aligned O++ combined flux

Averaged over pitch angle 150-180, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O++ flux uncertainty

OppTotalAnti_DELTA

Field-anti-aligned combined O++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O>=3+ flux

OHiTotalAnti

Field-anti-aligned O>=3+ flux

Averaged over pitch angle 150-180, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O>=3+ flux uncertainty

OHiTotalAnti_DELTA

Field-anti-aligned combined O>=3+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux

HTotalPerp

Field-perpendicular H+ combined flux

Averaged over pitch angle 75-105, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

H+ flux uncertainty

HTotalPerp_DELTA

Field-perpendicular combined H+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux

HepTotalPerp

Perpdirectional He+ combined flux

Averaged over pitch angle 75-105, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He+ flux uncertainty

HepTotalPerp_DELTA

Field-perpendicular combined He+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux

AlphaTotalPerp

Field-perpendicular He++ combined flux

Averaged over pitch angle 75-105, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

He++ flux uncertainty

AlphaTotalPerp_DELTA

Field-perpendicular combined He++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+ flux

OpTotalPerp

Field-perpendicular O+ combined flux

Averaged over pitch angle 75-105, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O+/++ flux uncertainty

OpTotalPerp_DELTA

Field-perpendicular combined O+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O++ flux

OppTotalPerp

Field-perpendicular O++ combined flux

Averaged over pitch angle 75-105, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O++ flux uncertainty

OppTotalPerp_DELTA

Field-perpendicular combined O++ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O>=3+ flux

OHiTotalPerp

Field-perpendicular O>=3+ flux

Averaged over pitch angle 75-105, weighted by sin(alpha).

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

O>=3+ flux uncertainty

OHiTotalPerp_DELTA

Field-perpendicular combined O>=3+ flux uncertainty

Based on a combination of rate scaler compression and Poisson statistics. One sigma.

cm!E-2!Nsr!E-1!Nsec!E-1!NkeV/e!E-1!N

Charge

He0ChargeLo

Dominant He0 low-energy charge state

Dominant charge state in He0 rate scaler. Mode (most common) charge state for the ENTIRE period (i.e. summed over all energies), low (below 30keV) energy, based on COUNTS. Because of different efficiencies, this may NOT be the charge state with the highest flux. Be particularly suspicious if this varies significantly from the mean charge state.

e

1

2

-128

Charge

He0ChargeHi

Dominant He0 high-energy charge state

Dominant charge state in He0 rate scaler. Mode (most common) charge state for the ENTIRE period (i.e. summed over all energies), high (above 30keV) energy, based on COUNTS. Because of different efficiencies, this may NOT be the charge state with the highest flux. Be particularly suspicious if this varies significantly from the mean charge state.

e

1

2

-128

avg charge

He0MeanChargeLo

Mean He0 low-energy charge state

Mean charge state in He0 rate scaler. For the ENTIRE period (i.e. summed over all energies), low (below 30keV) energy, based on COUNTS.

e

1.0

2.0

-1.0E31

avg charge

He0MeanChargeHi

Mean He0 high-energy charge state

Mean charge state in He0 rate scaler. For the ENTIRE period (i.e. summed over all energies), high (above 30keV) energy, based on COUNTS.

e

1.0

2.0

-1.0E31

Charge

O0ChargeLo

Dominant O0 low-energy charge state

Dominant charge state in O0 rate scaler. Mode (most common) charge state for the ENTIRE period (i.e. summed over all energies), low (below 30keV) energy, based on COUNTS. Because of different efficiencies, this may NOT be the charge state with the highest flux. Be particularly suspicious if this varies significantly from the mean charge state.

e

1

8

-128

Charge

O0ChargeHi

Dominant O0 high-energy charge state

Dominant charge state in O0 rate scaler. Mode (most common) charge state for the ENTIRE period (i.e. summed over all energies), high (above 30keV) energy, based on COUNTS. Because of different efficiencies, this may NOT be the charge state with the highest flux. Be particularly suspicious if this varies significantly from the mean charge state.

e

1

8

-128

avg charge

O0MeanChargeLo

Mean O0 low-energy charge state

Mean charge state in O0 rate scaler. For the ENTIRE period (i.e. summed over all energies), low (below 30keV) energy, based on COUNTS.

e

1.0

8.0

-1.0E31

avg charge

O0MeanChargeHi

Mean O0 high-energy charge state

Mean charge state in O0 rate scaler. For the ENTIRE period (i.e. summed over all energies), high (above 30keV) energy, based on COUNTS.

e

1.0

8.0

-1.0E31

Charge

OpChargeLo

Dominant O+/++ low-energy charge state

Dominant charge state in O+/++ rate scaler. Mode (most common) charge state for the ENTIRE period (i.e. summed over all energies), low (below 30keV) energy, based on COUNTS. Because of different efficiencies, this may NOT be the charge state with the highest flux. Be particularly suspicious if this varies significantly from the mean charge state.

e

1

2

-128

Charge

OpChargeHi

Dominant O+/++ high-energy charge state

Dominant charge state in O+/++ rate scaler. Mode (most common) charge state for the ENTIRE period (i.e. summed over all energies), high (above 30keV) energy, based on COUNTS. Because of different efficiencies, this may NOT be the charge state with the highest flux. Be particularly suspicious if this varies significantly from the mean charge state.

e

1

2

-128

avg charge

OpMeanChargeLo

Mean O+/++ low-energy charge state

Mean charge state in O+/++ rate scaler. For the ENTIRE period (i.e. summed over all energies), low (below 30keV) energy, based on COUNTS.

e

1.0

2.0

-1.0E31

avg charge

OpMeanChargeHi

Mean O+/++ high-energy charge state

Mean charge state in O+/++ rate scaler. For the ENTIRE period (i.e. summed over all energies), high (above 30keV) energy, based on COUNTS.

e

1.0

2.0

-1.0E31

Charge

O3pChargeLo

Dominant O>=3+ low-energy charge state

Dominant charge state in O>=3+ rate scaler. Mode (most common) charge state for the ENTIRE period (i.e. summed over all energies), low (below 30keV) energy, based on COUNTS. Because of different efficiencies, this may NOT be the charge state with the highest flux. Be particularly suspicious if this varies significantly from the mean charge state.

e

1

8

-128

Charge

O3pChargeHi

Dominant O>=3+ high-energy charge state

Dominant charge state in O>=3+ rate scaler. Mode (most common) charge state for the ENTIRE period (i.e. summed over all energies), high (above 30keV) energy, based on COUNTS. Because of different efficiencies, this may NOT be the charge state with the highest flux. Be particularly suspicious if this varies significantly from the mean charge state.

e

1

8

-128

avg charge

O3pMeanChargeLo

Mean O>=3+ low-energy charge state

Mean charge state in O>=3+ rate scaler. For the ENTIRE period (i.e. summed over all energies), low (below 30keV) energy, based on COUNTS.

e

1.0

8.0

-1.0E31

avg charge

O3pMeanChargeHi

Mean O>=3+ high-energy charge state

Mean charge state in O>=3+ rate scaler. For the ENTIRE period (i.e. summed over all energies), high (above 30keV) energy, based on COUNTS.

e

1.0

8.0

-1.0E31