Abstract
Abstract We performed shot analyses of X-ray and optical subsecond flares observed during the low/hard state of the 2018 outburst in MAXI J1820+070. Optical shots were less spread than X-ray shots. The amplitude of X-ray shots was highest at the onset of the outburst, and they faded at the transition to the intermediate state. The timescale of shots was ~0.2 s, and we detected abrupt spectral hardening synchronized with this steep flaring event. The time evolution of optical shots was not similar to that of X-ray shots. These results suggest that accreting gas blobs triggered a series of magnetic reconnections at the hot inner accretion flow in the vicinity of the black hole, which enhanced X-ray emission and generated flaring events. Rapid X-ray spectral hardening would be caused by this kind of magnetic activity. Also, synchrotron emission not only at the hot flow but also at the jet plasma would contribute to the optical rapid variability. We also found that the low/hard state exhibited six different phases in the hardness–intensity diagram and the correlation plot between the optical flux and the X-ray hardness. The amplitude and duration of X-ray shots varied in synchrony with these phases. This time variation may provide key information about the evolution of the hot flow, the low-temperature outer disk, and the jet-emitting plasma.
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