N. Gopalswamy et al 2009 ApJ 691 L123 doi:10.1088/0004-637X/691/2/L123
N. Gopalswamy1, S. Yashiro1, M. Temmer2, J. Davila3, W. T. Thompson3, S. Jones3, R. T. J. McAteer4, J.-P. Wuelser5, S. Freeland5 and R. A. Howard6
Show affiliationsWe report on the detection of EUV wave reflection from a coronal hole, as observed by the Solar Terrestrial Relations Observatory mission. The EUV wave was associated with a coronal mass ejection (CME) erupting near the disk center. It was possible to measure the kinematics of the reflected waves for the first time. The reflected waves were generally slower than the direct wave. One of the important implications of the wave reflection is that the EUV transients are truly a wave phenomenon. The EUV wave reflection has implications for CME propagation, especially during the declining phase of the solar cycle when there are many low-latitude coronal holes.
Sun: corona; Sun: coronal mass ejections (CMEs); Sun: flares; Sun: magnetic fields; Sun: UV radiation
96.60.ph Coronal mass ejection
96.60.Tf Solar electromagnetic radiation
Issue 2 (2009 February 1)
Received 2008 November 7, accepted for publication 2008 December 22
Published 2009 January 13
N. Gopalswamy et al 2009 ApJ 691 L123