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arxiv: 2211.10004 · v1 · pith:W3QQMYSC · submitted 2022-11-18 · astro-ph.HE

X-ray from Outflow-Cloud Interaction and Its Application in Tidal Disruption Events

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classification astro-ph.HE
keywords cloudscloudradiationx-raydensityoutflowdelayeddisruption
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Tidal disruption events (TDEs) may occur in supermassive black holes (SMBHs) surrounded by clouds. TDEs can generate ultrafast and large opening-angle outflow with a velocity of $\sim$ 0.01--0.2 c, which will collide with clouds with time lags depending on outflow velocity and cloud distances. Since the fraction of the outflow energy transferred into cloud's radiation is anti-correlated with the cloud density, high density clouds was thought to be inefficient in generating radiation. In this work, we studied the radiation from the outflow-cloud interactions for high density clouds, and found that thermal conduction plays crucial roles in increasing the cloud's radiation. Up to 10\% of the bow shock energy can be transferred into clouds and gives rise to X-ray emission with equivalent temperature of $10^{5-6}$ Kelvins due to the cooling catastrophe. The inverse Compton scattering of TDE UV/optical photons by relativistic electrons at bow shock generates power-law X-ray spectra with photon indices $\Gamma\sim 2-3$. This mechanism may account for some TDE candidates with delayed X-ray emission, and can be examined by delayed radio and gamma-ray emissions.

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