Evidence for Stream Collision and Disk Formation in Tidal Disruption Events

When a star passes through the tidal disruption radius of a massive black hole (BH), it can be torn apart by the tidal force of the BH, known as the Tidal Disruption Event (TDE). Since the UV/optical emitting region inferred from the blackbody radius is significantly larger than the circularization radius predicted by the classical TDE theory, two competing models, stream collision and envelope reprocessing, were proposed to explain the unexpectedly large UV/optical emitting size. Here, we investigate the variability behaviors (cross-correlation and time delay) of three representative TDEs with continuum reverberation mapping. Our results demonstrate that TDE behavior is clearly inconsistent with the envelope reprocessing scenario. In contrast, the picture of the stream collision, together with the late-time formed accretion disk, can explain heterogeneous observations. This provides compelling evidence that the UV/optical emission originates from stream collisions during the early-stage of TDE evolution and gradually transitions to being dominated by accretion disk with detectable X-ray emission in a late stage. After fading back to a quiescent state, recurrent flares may be observed in some occasions, such as partial TDEs.
Comment: 56 pages, 21 figures, 5 tables. Submitted, comments welcome!