@Article{YaoMurpRaeBala:2017:InThSe,
author = "Yao, Z. H. and Murphy, K. R. and Rae, I. J. and Balan, Nalan",
affiliation = "{Universite de Liege} and Goddard Space Flight Center, NASA and
{UCL Mullard Space Science Laboratory} and {Instituto Nacional de
Pesquisas Espaciais (INPE)}",
title = "Introduction to the thematic series “Coupling of the
magnetosphere–ionosphere system”",
journal = "Geoscience Letters",
year = "2017",
volume = "4",
number = "1",
month = "Dec.",
abstract = "This thematic series contains 4 papers mostly presented at the
2016 AOGS meeting in Beijing. The four papers investigate four key
regions in the magnetosphereionosphere coupling process: mid-tail
magnetosphere, near-Earth magnetosphere, inner magnetosphere, and
the polar ground region. Guo et al. (Geosci Lett 4:18, 2017) study
the current system in reconnection region using 2.5D
particle-in-cell simulations. Yao et al. (Geosci Lett 4:8, 2017)
use conjugate measurements from ground auroral imagers and in situ
THEMIS spacecraft to reveal the mechanism for the wave-like
auroral structures prior to substorm onset. Zhang et al. (Geosci
Lett 4:20, 2017) investigate the profles of resonance zone and
resonant frequency in the Landau resonance between radiation belt
electrons and magnetosonic waves and between protons and cyclotron
waves. Rae et al. (Geosci Lett 4:23, 2017) determine the relative
timing between sudden increases in amplitude, or onsets, of
diferent ultra-low-frequency wave bands during substorms.",
doi = "10.1186/s40562-017-0092-5",
url = "http://dx.doi.org/10.1186/s40562-017-0092-5",
issn = "2196-4092",
language = "en",
targetfile = "yao_introduction.pdf",
urlaccessdate = "21 maio 2024"
}