Abstract
We present the first high spatial resolution images of a solar flare at
millimeter wavelengths. On
1994 August 17, a GOES soft X-ray class M1 flare was observed by the
Berkeley-Illinois-Maryland Array at 86 GHz by
the Nobeyama 17 GHz array
and by the Yohkoh
spacecraft. The flare displayed both a prominent impulsive phase in
microwaves and a gradual
phase that lasted over 30 minutes. The millimeter data were taken only
during the gradual phase.
The millimeter images show a source with a size of ~8", a peak
brightness temperature of ~106 K,
and maximum optical depth of 0.09. At both X-ray and radio wavelengths,
the emitting region
appeared to be compact (<~20"). In soft X-ray, the images are resolved
into two sources: one
located at a footpoint and the other at the top of the flaring loop. The
millimeter emission is
consistent with the predicted free-free flux from an isothermal
temperature (~14 MK) loop-top
source, a multitemperature footpoint source with a hot (~22 MK), and a
cold (~12 MK)
component. Most (80%) of the millimeter flux density originates from the
top of the magnetic loop,
and the footpoint contribution is only 20%.