The Electric Field Instrument (EFI) for THEMIS

被引:0
|
作者
J. W. Bonnell
F. S. Mozer
G. T. Delory
A. J. Hull
R. E. Ergun
C. M. Cully
V. Angelopoulos
P. R. Harvey
机构
[1] University of California,Space Sciences Laboratory
[2] University of Colorado,Laboratory for Astrophysics and Space Physics
[3] Institute for Space Physics,Institute for Geophysics and Planetary Physics
[4] University of California,undefined
来源
Space Science Reviews | 2008年 / 141卷
关键词
Electric field instrumentation; Electrodynamics; Reconnection; Substorms;
D O I
暂无
中图分类号
学科分类号
摘要
The design, performance, and on-orbit operation of the three-axis electric field instrument (EFI) for the NASA THEMIS mission is described. The 20 radial wire boom and 10 axial stacer boom antenna systems making up the EFI sensors on the five THEMIS spacecraft, along with their supporting electronics have been deployed and are operating successfully on-orbit without any mechanical or electrical failures since early 2007. The EFI provides for waveform and spectral three-axis measurements of the ambient electric field from DC up to 8 kHz, with a single, integral broadband channel extending up to 400 kHz. Individual sensor potentials are also measured, providing for on-board and ground-based estimation of spacecraft floating potential and high-resolution plasma density measurements. Individual antenna baselines are 50- and 40-m in the spin plane, and 6.9-m along the spin axis.
引用
收藏
页码:303 / 341
页数:38
相关论文
共 50 条
  • [31] The Electric and Magnetic Field Instrument Suite and Integrated Science (EMFISIS) on RBSP
    Kletzing, C. A.
    Kurth, W. S.
    Acuna, M.
    MacDowall, R. J.
    Torbert, R. B.
    Averkamp, T.
    Bodet, D.
    Bounds, S. R.
    Chutter, M.
    Connerney, J.
    Crawford, D.
    Dolan, J. S.
    Dvorsky, R.
    Hospodarsky, G. B.
    Howard, J.
    Jordanova, V.
    Johnson, R. A.
    Kirchner, D. L.
    Mokrzycki, B.
    Needell, G.
    Odom, J.
    Mark, D.
    Pfaff, R., Jr.
    Phillips, J. R.
    Piker, C. W.
    Remington, S. L.
    Rowland, D.
    Santolik, O.
    Schnurr, R.
    Sheppard, D.
    Smith, C. W.
    Thorne, R. M.
    Tyler, J.
    SPACE SCIENCE REVIEWS, 2013, 179 (1-4) : 127 - 181
  • [32] Instrument for investigating high electric field phenomena at small electrode separations
    Olson, R.T.
    Panitz, J.A.
    Review of Scientific Instruments, 1998, 69 (05):
  • [33] The Electric and Magnetic Field Instrument Suite and Integrated Science (EMFISIS) on RBSP
    C. A. Kletzing
    W. S. Kurth
    M. Acuna
    R. J. MacDowall
    R. B. Torbert
    T. Averkamp
    D. Bodet
    S. R. Bounds
    M. Chutter
    J. Connerney
    D. Crawford
    J. S. Dolan
    R. Dvorsky
    G. B. Hospodarsky
    J. Howard
    V. Jordanova
    R. A. Johnson
    D. L. Kirchner
    B. Mokrzycki
    G. Needell
    J. Odom
    D. Mark
    R. Pfaff
    J. R. Phillips
    C. W. Piker
    S. L. Remington
    D. Rowland
    O. Santolik
    R. Schnurr
    D. Sheppard
    C. W. Smith
    R. M. Thorne
    J. Tyler
    Space Science Reviews, 2013, 179 : 127 - 181
  • [34] Design of Lightning Monitoring Device Based on Ground Electric Field Instrument
    Zhu W.
    Pan W.
    Zhang J.
    Gaodianya Jishu/High Voltage Engineering, 2019, 45 (05): : 1490 - 1495
  • [35] Balloon-borne two shpheres electric field instrument and application
    Luo, FS
    Zhuang, HC
    He, YH
    Zhang, JA
    Chen, ZY
    Hu, SB
    Yang, LZ
    Huang, ZZ
    Guo, WB
    CHINESE JOURNAL OF GEOPHYSICS-CHINESE EDITION, 1999, 42 (06): : 772 - 777
  • [36] Modelling Electrostatic Sheath Effects on Swarm Electric Field Instrument Measurements
    R. Marchand
    J. K. Burchill
    D. J. Knudsen
    Space Science Reviews, 2010, 156 : 73 - 87
  • [37] The Spin-Plane Double Probe Electric Field Instrument for MMS
    Lindqvist, P. -A.
    Olsson, G.
    Torbert, R. B.
    King, B.
    Granoff, M.
    Rau, D.
    Needell, G.
    Turco, S.
    Dors, I.
    Beckman, P.
    Macri, J.
    Frost, C.
    Salwen, J.
    Eriksson, A.
    Ahlen, L.
    Khotyaintsev, Y. V.
    Porter, J.
    Lappalainen, K.
    Ergun, R. E.
    Wermeer, W.
    Tucker, S.
    SPACE SCIENCE REVIEWS, 2016, 199 (1-4) : 137 - 165
  • [38] A new high-voltage electric field instrument for studying sprites
    Thomas, JN
    Holzworth, RH
    Chin, J
    IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING, 2004, 42 (07): : 1399 - 1404
  • [39] INSTRUMENT FOR MEASURING ELECTRIC-FIELD WITH AN INDUCTION-PARAMETRIC TRANSDUCER
    KONDRATEV, BL
    YURKEVICH, VM
    MEASUREMENT TECHNIQUES, 1980, 23 (09) : 823 - 826
  • [40] Modelling Electrostatic Sheath Effects on Swarm Electric Field Instrument Measurements
    Marchand, R.
    Burchill, J. K.
    Knudsen, D. J.
    SPACE SCIENCE REVIEWS, 2010, 156 (1-4) : 73 - 87
12345