An SS433 flare caught by TESS. Fast rise times and evidence for a 13 hours quasi-period
Abstract
SS433 is an exotic Galactic microquasar in which there is a supercritical inflow of matter into a compact object of likely black hole nature. Here we report on an SS433 flare that occurred during a TESS observation of Sector 54 in June of 2022. The flare lasted for about 10 days and culminated in a flux increase by a factor of three relative to quiescence. The unprecedented continuous photometric coverage of the flare afforded by TESS shows that the flux can rise and fall by up to a factor of two within 4 to 7 hours. Furthermore, there is evidence that the flare peaks occur with a quasi-period PQPO = 13.3 hours. The flare can be most naturally explained by accretion rate (M) variations due to oscillations in the donor star mass loss rate. We estimate M variations up to a factor of two with an increase in the photospheric radius of the accretion disk by about the same factor, implying that a transient ``common envelope'' enshrouds the binary system during the flares. If the flares are due to radial pulsations in the donor star envelope then their quasi-period PQPO could imply a mean density < > 18 kg m-3 for the donor star, compared to < RL > = 0.7-1 kg m-3 for a synchronized Roche-lobe filling donor star. Another SS433 lightcurve from a Sector 80 TESS observation in 2024 hints that there may be an outflow from behind the donor star.
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