Abstract
We studied the fast temporal variations in the brightness of the radio and
hard X-ray sources of thress double-loop flares.
In such flares, the main radio/hard X-ray source is located near to
one of the footpoints of a large overlying loop, where a small, newly
emerging loop appears and the two loops interact, and the remote source
is located at another footpoint of the large loop.
The following results were obtained from the analysis:
(1) The main source and the remote source basically
show a correlated brightness fluctuation,
but the rapid fluctuation of the brightness of the remote
source lags behind that of the main source for about
500 ms.
This result is evidence that the high-energy electrons
in the double-loop flares are accelerated in the interaction
region of the two loops.
(2) The brightness of the hard X-rays from the main source
fluctuate less. This result means that the microwave-emitting
electrons are effectively trapped at the main source region.