http://arxiv.org/abs/1601.02734
Massive black holes at galaxy center may tear apart a star when the star passes occasionally within the disruption radius, which is the so-called tidal disruption event(TDE). Most TDEs radiate with thermal emission resulted from the acceleration disk, but three TDEs have been detected in bright non-thermal X-ray emission, which is interpreted as arising from the relativistic jets. Search for high-energy gamma-ray emission from one relativistic TDE (Swift J164449.3+573451) with the \textsl{Fermi} Large Area Telescope (LAT) has yielded non-detection. In this paper, we report the search for high energy emission from the other two relativistic TDEs (Swift J2058.4+0516 Swift J1112.2-8238) during the flare period. No significant GeV emission is found, with an upper limit fluence in LAT energy range being less than $1\%$ of that in X-rays. Compared with gamma-ray bursts (GRBs) and blazars, these TDEs have the lowest flux ratio between GeV emission and X-ray emission. The non-detection of high-energy emission from relativistic TDEs implies that the high-energy emission is heavily absorbed by soft photons in the source. An upper limit on the bulk Lorentz factor, $\Gamma\la 30$, is then obtained for the jets in these TDEs. We also search for high-energy gamma-ray emission from the nearest TDE discovered to date, ASASSN-14li. No significant GeV emission is found and an upper limit of $L(\rm 0.1-10 GeV)\le 4.4\times 10^{42}$ erg s$^{-1}$ (at $95\%$ confidence level) is obtained for the first $10^{7}$ s after the disruption.
F. Peng, Q. Tang and X. Wang
Wed, 13 Jan 16
68/81
Comments: 6 pages, 3 figures
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