A milli-Tidal Disruption Event Model for GRB\;250702B: Main Sequence Star Disrupted by an IMBH
Abstract
GRB\;250702B is the longest GRB recorded so far, with multiple gamma-ray emission episodes spread over a duration exceeding 25\;ks and a weaker soft X-ray pre-peak 1\;day gradually rising emission. It is offset from its host galaxy center by 5.7\;kpc, and displays a long-lived afterglow emission in radio to X-ray. Its true nature is unclear, with the two leading candidate classes of objects being a peculiar type of ultra-long GRB and a tidal disruption event (TDE) by an intermediate mass black hole (IMBH). Here, we consider the latter, mTDE origin. We model the afterglow data, finding a stratified external density profile r-k with k=1.600.17, consistent with Bondi accretion of the interstellar medium (of initial number density n ISM=n0\; cm-3 and sound speed cs=cs,6106\; cm\,s-1) for which n(r)≈ n ISM(r/R B)-3/2 within the Bondi radius R B. Moreover, we use the implied density normalization to infer the IMBH mass within this model, finding M≈(6.55+3.51-2.29)×103\,n0-2/3\,cs,62(1+M2)\;M where M v BH/cs is the IMBH's Mach number relative to the ISM. Together with an upper limit on M<c3Gt MV1+z 5×104\,M from the source-frame minimum variability time t MV,src\!=\!t MV1+z\!≈\!0.5\;s this implies v BH 28\,n01/3\; km\;s-1. We show that a mTDE of a main-sequence star (but not of a white dwarf) can explain the duration and energetics of GRB\;250702B. The gradual rise to the peak may be caused by gradual circularization and accretion disk buildup, leading to an increase in the jet's power and Lorentz factor.
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