S. Curtis et al., A global view of the role of acceleration processes in solar-terrestrial coupling as provided by the ISTP theory and ground-based experiments, PHYS CH P C, 24(1-3), 1999, pp. 239-246
Citations number
24
Categorie Soggetti
Earth Sciences
Journal title
PHYSICS AND CHEMISTRY OF THE EARTH PART C-SOLAR-TERRESTIAL AND PLANETARY SCIENCE
Present global simulations of the Earth's upper atmosphere and magnetospher
e, which have been developed under the auspices of the International Solar
Terrestrial Physics (ISTP) Program, can provide an effective, near-quantita
tive, global view of the role of acceleration processes in the transport of
energy, momentum, and mass from the solar wind, through the magnetosphere,
and to their final deposition in the upper atmosphere. In addition, ground
-based experiments can provide not only more realistic inner boundary-condi
tions for the global MHD magnetosphere simulations, but give improved estim
ates of the roles of magnetospheric acceleration processes in the upper atm
osphere. An overview of a detailed case study of a series of events which o
ccurred during 19-20 May 1996 will be used to illustrate the power of theor
y and ground-based observations to complement spacecraft observations in pr
oviding a global view of acceleration processes.
The period from 0100 UT 19 May to 0300 UT 20 May 1996 was chosen as an illu
strative case since it contains times of steady solar wind conditions, and
periods of slow variations in the IMF followed by sudden changes in the IMF
These conditions are near ideal for global simulation-observation comparis
ons. It also has two distinct substorms at 2020 UT 19 May and 0035 UT 20 Ma
y. The slow changes in the IMF followed by the rapid changes provided excel
lent conditions for comparing theoretical predictions of the global effects
of acceleration processes and observations from ground-based and spacecraf
t experiments. (C) 1998 Published by Elsevier Science Ltd. All rights reser
ved.