This paper describes Skylab/ATM observations of the events associated with a disappearing filament near the center of the solar disk on January 18, 1974. As the filament disappeared, the nearby coronal plasma was heated to a temperature in excess of 6 β’ 106K. A change in the pattern of coronal emission occurred during the 1 89 hr period that the soft X-ray flux was increasing. This change seemed to consist of the formation and apparent expansion of a loop-like coronal structure which remained visible until its passage around the west limb several days later. The time history of the X-ray and microwave radio flux displayed the well-known gradual-rise-and-faU (GRF) signature, suggesting that this January 18 event may have properties characteristic of a wide class of X-ray and radio events.
In pursuit of this idea, we examined other spatially-resolved Skylab/ATM observations of longduration X-ray events to see what characteristics they may have in common. Nineteen similar longlived SOLRAD X-ray events having either the GRF or 'post-burst' radio classification occurred during the nine-month Skylab mission. Sixteen of these occurred during HAO/ATM coronagraph observations, and 7 of these 16 events occurred during observations with both the NRL/ATM slitless spectrograph and the MSFC-A/ATM X-ray telescope. The tabulation of these events suggests that all long-lived SOLRAD X-ray bursts involve transients in the outer corona and that at least two-thirds of the bursts involve either the eruption or major activation of a prominence. Also, these observations indicate that long-lived SOLRAD events are characterized by the appearance of new loops of emission in the lower corona during the declining phase of the X-ray emission. However, sometimes these loops disappear after the X-ray event (like the post-flare loops associated with a 'sporadic coronal condensation'), and sometimes the loops remain indefinitely (like the emission from a 'permanent coronal condensation').