Proc. SPIE 6689, 66890G, 1−14, 2007
Solar Physics and Space Weather Instrumentation II
S. Fineschi and R.A. Viereck (eds)
© SPIE − The International Society for Optical Engineering
SMEI Observations in the STEREO Era
B.V. Jackson, A. Buffington, P.P. Hick, M.M. Bisi and E.A. Jensen
Center for Astrophysics and Space Sciences, University of California San Diego
Abstract
White-light Thomson scattering observations from the Solar Mass Ejection Imager (SMEI)
have recorded the inner heliospheric response to many CMEs. Some of these are also
observed from the LASCO instrumentation and, most recently, the STEREO spacecraft.
Here, we detail several CME events in SMEI observations that have also been observed
by the LASCO instrumentation and STEREO spacecrafts. We show how SMEI is able to
measure CME events from their first observations as close as 20° from the solar
disk until they fade away in the SMEI 180° field of view. We employ a 3D
reconstruction technique that provides perspective views as observed from Earth,
from outward-flowing solar wind. This is accomplished by iteratively fitting the
parameters of a kinematic solar wind density model to the SMEI white-light
observations and, where possible, including interplanetary scintillation (IPS)
velocity data. This 3D modeling technique enables separating the true heliospheric
response in SMEI from background noise, and reconstructing the 3D heliospheric
structure as a function of time. These reconstructions allow both separation of
CME structure from other nearby heliospheric features and a determination of CME
mass. Comparisons with LASCO and STEREO images for individual CMEs or portions
of them allow a detailed view of changes to the CME shape and mass as they
propagate outward.