The Electric Field and Waves Instruments on the Radiation Belt Storm Probes mission

J. R. Wygant; J. W. Bonnell; K. Goetz; R. E. Ergun; F. S. Mozer; S. D. Bale; M. Ludlam; P. Turin; P. R. Harvey; R. Hochmann; K. Harps; G. Dalton; J. McCauley; W. Rachelson; D. Gordon; B. Donakowski; C. Shultz; C. Smith; M. Diaz-Aguado; J. Fischer; S. Heavner; P. Berg; D. M. Malsapina; M. K. Bolton; M. Hudson; R. J. Strangeway; D. N. Baker; X. Li; J. Albert; J. C. Foster; C. C. Chaston; I. Mann; E. Donovan; C. M. Cully; C. A. Cattell; V. Krasnoselskikh; K. Kersten; A. Brenneman; J. B. Tao

doi:10.1007/978-1-4899-7433-4_6

The Electric Field and Waves Instruments on the Radiation Belt Storm Probes mission

J. R. Wygant, J. W. Bonnell, K. Goetz, R. E. Ergun, F. S. Mozer, S. D. Bale, M. Ludlam, P. Turin, P. R. Harvey, R. Hochmann, K. Harps, G. Dalton, J. McCauley, W. Rachelson, D. Gordon, B. Donakowski, C. Shultz, C. Smith, M. Diaz-Aguado, J. FischerS. Heavner, P. Berg, D. M. Malsapina, M. K. Bolton, M. Hudson, R. J. Strangeway, D. N. Baker, X. Li, J. Albert, J. C. Foster, C. C. Chaston, I. Mann, E. Donovan, C. M. Cully, C. A. Cattell, V. Krasnoselskikh, K. Kersten, A. Brenneman, J. B. Tao

Physics and Astronomy (Twin Cities)

Research output: Chapter in Book/Report/Conference proceeding › Chapter

15 Scopus citations

Abstract

The Electric Fields and Waves (EFW) Instruments on the two Radiation Belt Storm Probe (RBSP) spacecraft (recently renamed the Van Allen Probes) are designed to measure three dimensional quasi-static and low frequency electric fields and waves associated with the major mechanisms responsible for the acceleration of energetic charged particles in the inner magnetosphere of the Earth. For this measurement, the instrument uses two pairs of spherical double probe sensors at the ends of orthogonal centripetally deployed booms in the spin plane with tip-to-tip separations of 100 meters. The third component of the electric field is measured by two spherical sensors separated by ∼15 m, deployed at the ends of two stacer booms oppositely directed along the spin axis of the spacecraft. The instrument provides a continuous stream of measurements over the entire orbit of the low frequency electric field vector at 32 samples/s in a survey mode. This survey mode also includes measurements of spacecraft potential to provide information on thermal electron plasma variations and structure. Survey mode spectral information allows the continuous evaluation of the peak value and spectral power in electric, magnetic and density fluctuations from several Hz to 6.5 kHz. On-board cross-spectral data allows the calculation of field-aligned wave Poynting flux along the magnetic field. For higher frequency waveform information, two different programmable burst memories are used with nominal sampling rates of 512 samples/s and 16 k∈samples/s. The EFW burst modes provide targeted measurements over brief time intervals of 3-d electric fields, 3-d wave magnetic fields (from the EMFISIS magnetic search coil sensors), and spacecraft potential. In the burst modes all six sensor-spacecraft potential measurements are telemetered enabling interferometric timing of small-scale plasma structures. In the first burst mode, the instrument stores all or a substantial fraction of the high frequency measurements in a 32 gigabyte burst memory. The sub-intervals to be downloaded are uplinked by ground command after inspection of instrument survey data and other information available on the ground. The second burst mode involves autonomous storing and playback of data controlled by flight software algorithms, which assess the highest quality events on the basis of instrument measurements and information from other instruments available on orbit. The EFW instrument provides 3-d wave electric field signals with a frequency response up to 400 kHz to the EMFISIS instrument for analysis and telemetry (Kletzing et al. Space Sci. Rev. 2013).

Original language	English (US)
Title of host publication	The Van Allen Probes mission
Publisher	Springer US
Pages	183-220
Number of pages	38
Volume	9781489974334
ISBN (Electronic)	9781489974334
ISBN (Print)	1489974334, 9781489974327
DOIs	https://doi.org/10.1007/978-1-4899-7433-4_6
State	Published - Jul 1 2014

Bibliographical note

Publisher Copyright:
© 2014 Springer Science+Business Media New York. All Rights Received.

Keywords

Electric fields
Magnetosphere

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Wygant, J. R., Bonnell, J. W., Goetz, K., Ergun, R. E., Mozer, F. S., Bale, S. D., Ludlam, M., Turin, P., Harvey, P. R., Hochmann, R., Harps, K., Dalton, G., McCauley, J., Rachelson, W., Gordon, D., Donakowski, B., Shultz, C., Smith, C., Diaz-Aguado, M., ... Tao, J. B. (2014). The Electric Field and Waves Instruments on the Radiation Belt Storm Probes mission. In The Van Allen Probes mission (Vol. 9781489974334, pp. 183-220). Springer US. https://doi.org/10.1007/978-1-4899-7433-4_6

Wygant, JR, Bonnell, JW, Goetz, K, Ergun, RE, Mozer, FS, Bale, SD, Ludlam, M, Turin, P, Harvey, PR, Hochmann, R, Harps, K, Dalton, G, McCauley, J, Rachelson, W, Gordon, D, Donakowski, B, Shultz, C, Smith, C, Diaz-Aguado, M, Fischer, J, Heavner, S, Berg, P, Malsapina, DM, Bolton, MK, Hudson, M, Strangeway, RJ, Baker, DN, Li, X, Albert, J, Foster, JC, Chaston, CC, Mann, I, Donovan, E, Cully, CM, Cattell, CA, Krasnoselskikh, V, Kersten, K, Brenneman, A & Tao, JB 2014, The Electric Field and Waves Instruments on the Radiation Belt Storm Probes mission. in The Van Allen Probes mission. vol. 9781489974334, Springer US, pp. 183-220. https://doi.org/10.1007/978-1-4899-7433-4_6

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abstract = "The Electric Fields and Waves (EFW) Instruments on the two Radiation Belt Storm Probe (RBSP) spacecraft (recently renamed the Van Allen Probes) are designed to measure three dimensional quasi-static and low frequency electric fields and waves associated with the major mechanisms responsible for the acceleration of energetic charged particles in the inner magnetosphere of the Earth. For this measurement, the instrument uses two pairs of spherical double probe sensors at the ends of orthogonal centripetally deployed booms in the spin plane with tip-to-tip separations of 100 meters. The third component of the electric field is measured by two spherical sensors separated by ∼15 m, deployed at the ends of two stacer booms oppositely directed along the spin axis of the spacecraft. The instrument provides a continuous stream of measurements over the entire orbit of the low frequency electric field vector at 32 samples/s in a survey mode. This survey mode also includes measurements of spacecraft potential to provide information on thermal electron plasma variations and structure. Survey mode spectral information allows the continuous evaluation of the peak value and spectral power in electric, magnetic and density fluctuations from several Hz to 6.5 kHz. On-board cross-spectral data allows the calculation of field-aligned wave Poynting flux along the magnetic field. For higher frequency waveform information, two different programmable burst memories are used with nominal sampling rates of 512 samples/s and 16 k∈samples/s. The EFW burst modes provide targeted measurements over brief time intervals of 3-d electric fields, 3-d wave magnetic fields (from the EMFISIS magnetic search coil sensors), and spacecraft potential. In the burst modes all six sensor-spacecraft potential measurements are telemetered enabling interferometric timing of small-scale plasma structures. In the first burst mode, the instrument stores all or a substantial fraction of the high frequency measurements in a 32 gigabyte burst memory. The sub-intervals to be downloaded are uplinked by ground command after inspection of instrument survey data and other information available on the ground. The second burst mode involves autonomous storing and playback of data controlled by flight software algorithms, which assess the highest quality events on the basis of instrument measurements and information from other instruments available on orbit. The EFW instrument provides 3-d wave electric field signals with a frequency response up to 400 kHz to the EMFISIS instrument for analysis and telemetry (Kletzing et al. Space Sci. Rev. 2013).",

keywords = "Electric fields, Magnetosphere",

author = "Wygant, {J. R.} and Bonnell, {J. W.} and K. Goetz and Ergun, {R. E.} and Mozer, {F. S.} and Bale, {S. D.} and M. Ludlam and P. Turin and Harvey, {P. R.} and R. Hochmann and K. Harps and G. Dalton and J. McCauley and W. Rachelson and D. Gordon and B. Donakowski and C. Shultz and C. Smith and M. Diaz-Aguado and J. Fischer and S. Heavner and P. Berg and Malsapina, {D. M.} and Bolton, {M. K.} and M. Hudson and Strangeway, {R. J.} and Baker, {D. N.} and X. Li and J. Albert and Foster, {J. C.} and Chaston, {C. C.} and I. Mann and E. Donovan and Cully, {C. M.} and Cattell, {C. A.} and V. Krasnoselskikh and K. Kersten and A. Brenneman and Tao, {J. B.}",

note = "Publisher Copyright: {\textcopyright} 2014 Springer Science+Business Media New York. All Rights Received.",

year = "2014",

month = jul,

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doi = "10.1007/978-1-4899-7433-4_6",

language = "English (US)",

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TY - CHAP

T1 - The Electric Field and Waves Instruments on the Radiation Belt Storm Probes mission

AU - Wygant, J. R.

AU - Bonnell, J. W.

AU - Goetz, K.

AU - Ergun, R. E.

AU - Mozer, F. S.

AU - Bale, S. D.

AU - Ludlam, M.

AU - Turin, P.

AU - Harvey, P. R.

AU - Hochmann, R.

AU - Harps, K.

AU - Dalton, G.

AU - McCauley, J.

AU - Rachelson, W.

AU - Gordon, D.

AU - Donakowski, B.

AU - Shultz, C.

AU - Smith, C.

AU - Diaz-Aguado, M.

AU - Fischer, J.

AU - Heavner, S.

AU - Berg, P.

AU - Malsapina, D. M.

AU - Bolton, M. K.

AU - Hudson, M.

AU - Strangeway, R. J.

AU - Baker, D. N.

AU - Li, X.

AU - Albert, J.

AU - Foster, J. C.

AU - Chaston, C. C.

AU - Mann, I.

AU - Donovan, E.

AU - Cully, C. M.

AU - Cattell, C. A.

AU - Krasnoselskikh, V.

AU - Kersten, K.

AU - Brenneman, A.

AU - Tao, J. B.

PY - 2014/7/1

Y1 - 2014/7/1

N2 - The Electric Fields and Waves (EFW) Instruments on the two Radiation Belt Storm Probe (RBSP) spacecraft (recently renamed the Van Allen Probes) are designed to measure three dimensional quasi-static and low frequency electric fields and waves associated with the major mechanisms responsible for the acceleration of energetic charged particles in the inner magnetosphere of the Earth. For this measurement, the instrument uses two pairs of spherical double probe sensors at the ends of orthogonal centripetally deployed booms in the spin plane with tip-to-tip separations of 100 meters. The third component of the electric field is measured by two spherical sensors separated by ∼15 m, deployed at the ends of two stacer booms oppositely directed along the spin axis of the spacecraft. The instrument provides a continuous stream of measurements over the entire orbit of the low frequency electric field vector at 32 samples/s in a survey mode. This survey mode also includes measurements of spacecraft potential to provide information on thermal electron plasma variations and structure. Survey mode spectral information allows the continuous evaluation of the peak value and spectral power in electric, magnetic and density fluctuations from several Hz to 6.5 kHz. On-board cross-spectral data allows the calculation of field-aligned wave Poynting flux along the magnetic field. For higher frequency waveform information, two different programmable burst memories are used with nominal sampling rates of 512 samples/s and 16 k∈samples/s. The EFW burst modes provide targeted measurements over brief time intervals of 3-d electric fields, 3-d wave magnetic fields (from the EMFISIS magnetic search coil sensors), and spacecraft potential. In the burst modes all six sensor-spacecraft potential measurements are telemetered enabling interferometric timing of small-scale plasma structures. In the first burst mode, the instrument stores all or a substantial fraction of the high frequency measurements in a 32 gigabyte burst memory. The sub-intervals to be downloaded are uplinked by ground command after inspection of instrument survey data and other information available on the ground. The second burst mode involves autonomous storing and playback of data controlled by flight software algorithms, which assess the highest quality events on the basis of instrument measurements and information from other instruments available on orbit. The EFW instrument provides 3-d wave electric field signals with a frequency response up to 400 kHz to the EMFISIS instrument for analysis and telemetry (Kletzing et al. Space Sci. Rev. 2013).

AB - The Electric Fields and Waves (EFW) Instruments on the two Radiation Belt Storm Probe (RBSP) spacecraft (recently renamed the Van Allen Probes) are designed to measure three dimensional quasi-static and low frequency electric fields and waves associated with the major mechanisms responsible for the acceleration of energetic charged particles in the inner magnetosphere of the Earth. For this measurement, the instrument uses two pairs of spherical double probe sensors at the ends of orthogonal centripetally deployed booms in the spin plane with tip-to-tip separations of 100 meters. The third component of the electric field is measured by two spherical sensors separated by ∼15 m, deployed at the ends of two stacer booms oppositely directed along the spin axis of the spacecraft. The instrument provides a continuous stream of measurements over the entire orbit of the low frequency electric field vector at 32 samples/s in a survey mode. This survey mode also includes measurements of spacecraft potential to provide information on thermal electron plasma variations and structure. Survey mode spectral information allows the continuous evaluation of the peak value and spectral power in electric, magnetic and density fluctuations from several Hz to 6.5 kHz. On-board cross-spectral data allows the calculation of field-aligned wave Poynting flux along the magnetic field. For higher frequency waveform information, two different programmable burst memories are used with nominal sampling rates of 512 samples/s and 16 k∈samples/s. The EFW burst modes provide targeted measurements over brief time intervals of 3-d electric fields, 3-d wave magnetic fields (from the EMFISIS magnetic search coil sensors), and spacecraft potential. In the burst modes all six sensor-spacecraft potential measurements are telemetered enabling interferometric timing of small-scale plasma structures. In the first burst mode, the instrument stores all or a substantial fraction of the high frequency measurements in a 32 gigabyte burst memory. The sub-intervals to be downloaded are uplinked by ground command after inspection of instrument survey data and other information available on the ground. The second burst mode involves autonomous storing and playback of data controlled by flight software algorithms, which assess the highest quality events on the basis of instrument measurements and information from other instruments available on orbit. The EFW instrument provides 3-d wave electric field signals with a frequency response up to 400 kHz to the EMFISIS instrument for analysis and telemetry (Kletzing et al. Space Sci. Rev. 2013).

KW - Electric fields

KW - Magnetosphere

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The Electric Field and Waves Instruments on the Radiation Belt Storm Probes mission

Abstract

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Keywords

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