Sounding of the plasmasphere by Mid-continent MAgnetoseismic Chain (McMAC) magnetometers

نویسندگان

  • P. J. Chi
  • M. J. Engebretson
  • M. B. Moldwin
  • C. T. Russell
  • I. R. Mann
  • M. R. Hairston
  • M. Reno
  • J. Goldstein
  • L. I. Winkler
  • J. L. Cruz-Abeyro
  • D.-H. Lee
  • K. Yumoto
  • R. Dalrymple
  • B. Chen
  • J. P. Gibson
چکیده

[1] We present a statistical analysis on the plasmaspheric mass density derived from the field line resonance (FLR) observations by the Mid-continent MAgnetoseismic Chain (McMAC). McMAC consists of nine stations in the United States and Mexico along the 330 magnetic longitude, spanning L-values between 1.5 and 3.4. Using the gradient method and an automated procedure for FLR detection, we studied a full year of McMAC observations between July 2006 and June 2007. We find that the rate of FLR detection can reach as high as 56% around local noon at L= 2.7, and the detection rates at higher and lower L-values decline due to the occasional presence of the plasmapause and weaker FLR signals, respectively. At L-values between 1.8 and 3.1, the inferred equatorial plasma mass density follows the L-dependence of L . By comparing the mass density with the electron density, we found that the ion mass gradually decreased from 1.7 amu at L= 1.8 to 1 amu at L = 3.1. The plasma mass density exhibits an annual variation that maximizes in January, and at L = 2.4 the ratio between January and July densities is 1.6. Our observations also show a local time dependence of plasmaspheric mass density that stays steady in the morning and rises postnoon, a phenomenon that may be attributed to the equatorial ionization anomaly as a part of the plasma neutral coupling at low latitude.

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تاریخ انتشار 2013