Abstract
We report on the observations of an X-ray coronal mass ejection (CME) with its three part
structure: frontal loop, coronal cavity, and the eruptive prominence core. The prominence core was
observed in microwaves, and the frontal loop was observed in X-rays. A coronal volume much
larger than that occupied by the prominence seems to be affected by the eruption. Formation of an
arcade structure was also observed beneath the erupting prominence. X-ray enhancement at the
arcade persisted for several hours similar to long decay events. At the apex of the arcade there
was a bright knot, which we interpret as the reconnection region from which the filament gets
detached. We determined the trajectories of the frontal loop and the prominence core and found
them to have very different characteristics. The CME showed an extremely small acceleration,
while the prominence had a linear motion in the beginning followed by an exponential rise.
However, during the several hours of simultaneous observation, the prominence did not catch up
with the frontal loop. We determined the evolution of the CME mass, which increased by a factor
of 4 during our observations. We discuss the implications of the observations in the general
context of coronal mass ejections.