posted on 2017-02-06, 14:46authored byH. Khan, M. Lester, J. A. Davies, S. E. Milan, P. E. Sandholt
We present multi-instrument observations using
the meridian scanning photometer (MSP) at Ny Alesund, the ˚
EISCAT Svalbard radar (ESR) and the CUTLASS Finland
HF radar, to investigate the dynamics of the cusp region during
pulsed reconnection events. The optical data obtained
from the MSP indicate the presence of several polewardmoving
auroral forms (PMAFs) which have been previously
identified as the auroral signature of pulsed reconnection.
Furthermore, the optical green line (557.7 nm) luminosity
indicates a loss of emission equatorward of the location of
the onset of the PMAFs, characteristic of magnetospheric
plasma escaping to the magnetosheath along newly opened
field lines. This reduction in green line luminosity creates
a “dark region”, the equatorward edge of which is found
to lie close to the boundary between high and low spectral
widths observed by the CUTLASS Finland radar. High spectral
widths on the dayside have previously been identified as
a good indicator of cusp backscatter. Both of these boundaries
have been suggested to provide an accurate representation
of the location of the open/closed field line boundary.
The ESR observations show enhancements in electron density
and electron temperature occurring in conjunction with
the optical PMAFs. The observations demonstrate some correspondence
with the theoretical predictions of Davis and
Lockwood (1996), who used an auroral precipitation model
to predict ESR observations in the vicinity of the cusp. However,
the limitations of this model are apparent under conditions
of large plasma flows in the ionosphere. Finally, convection
velocities obtained from the HF radar data illustrate
a flow regime similar to that predicted to be driven by strong
IMF By , as described by Cowley and Lockwood (1992),
demonstrating an initial azimuthal flow followed by a rotation
to more poleward directions.
Funding
The CUTLASS HF radars were deployed and
operated by the University of Leicester, and are supported by the
UK Particle Physics and Astronomy Research Council (PPARC
grant PPA/R/R/1997/00256), the Finnish Meteorological Institute,
and the Swedish Institute of Space Physics. The authors would
like to thank the Director of EISCAT and his staff for operating the facility and providing the EISCAT radar data. EISCAT is an
international association supported by the research councils of Finland
(SA), France (CNRS), Germany (MPG), Japan (NIPR), Norway
(NAVF), Sweden (NFA), and the United Kingdom (PPARC).
We also thank the principal investigators, N. Ness and D. L. McComas
for supplying the ACE Science Center with high time resolution
data from the ACE MAG and SWEPAM instruments, respectively.
The auroral observation program on Svalbard is supported
by the Norwegian Research Council and the Norwegian Polar Institute.
Drs H. Khan, J .A. Davies and S. E. Milan are supported on
PPARC grant PPA/G/O/1999/00181.
History
Citation
Annales Geophysicae, 2003, 21 (3), pp. 693-708 (16)
Author affiliation
/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Physics and Astronomy
Version
VoR (Version of Record)
Published in
Annales Geophysicae
Publisher
European Geosciences Union (EGU), Copernicus Publications, Springer Verlag (Germany)