@InProceedings{KogaGoSoCaWaLi:2018:AsInPa,
author = "Koga, Daiki and Gonzalez Alarcon, Walter Dem{\'e}trio and Souza,
Vitor Moura Cardoso e Silva and Cardoso, F. R. and Wang, C. and
Liu, Z. K.",
affiliation = "{Instituto Nacional de Pesquisas Espaciais (INPE)} and {Instituto
Nacional de Pesquisas Espaciais (INPE)} and {Instituto Nacional de
Pesquisas Espaciais (INPE)} and {Universidade de S{\~a}o Paulo
(USP)} and {State Key Laboratory of Space Weather (NSSC/CAS)} and
{State Key Laboratory of Space Weather (NSSC/CAS)}",
title = "Magnetopause reconnection events: its association with
interplanetary parameters and geomagnetic activities",
year = "2018",
organization = "Simp{\'o}sio Brasileiro de Geof{\'{\i}}sica Espacial e
Aeronomia, 7. (SBGEA)",
abstract = "Magnetic reconnection permits rearrangements of the interplanetary
and magnetospheric magnetic fields and the entry of solar wind
mass, energy, and momentum into the magnetosphere. Thus, magnetic
reconnection is a key issue to understand space weather. However
it has not been fully understood yet when, where and how magnetic
reconnection takes place at the dayside magnetopause. In the
present study dayside magnetopause reconnection events are
investigated using THEMIS (since 2007) and MMS (since 2015)
observations in order to find the answer to those questions
mentioned above. The position, plasma beta value, jet flow speed,
and Hall field intensity related to those reconnection events are
compared with interplanetary parameters (solar wind speed, number
density, magnetic field intensity and direction, etc.) and
geomagnetic indices (e.g., AE, AL, SymH, Polar Cap potential
etc.). The purpose of the comparison is to clarify the solar wind
magnetopause reconnection geomagnetic activity relationship. It is
expected that the results will shed light on the understanding of
the dayside magnetic reconnection process, which in turn is
crucial to provide a better prediction capability for the space
weather.",
conference-location = "Santa Maria, RS",
conference-year = "05-09 nov",
language = "pt",
targetfile = "koga_magnetopause.pdf",
urlaccessdate = "11 maio 2024"
}