Similar ratios of rise timescale to decline timescale of optical light curves in common tidal disruption events
Abstract
Totally similar physical process in tidal disruption events (TDEs) basically indicates that there should be potential parameter to distinguish variability properties of TDEs from the other transient events having different physical processes. Here, we try to report such a parameter, the timescale ratio R2/1,rd of rise timescale t1/2,r (from half-max to maximum) to decline timescale t1/2,d (from maximum to half-max), especially based on the 34 optical TDEs with reported t1/2,r and t1/2,d. Among the 34 optical TDEs, AT2020wey is an outlier with R2/1,rd2.7 which is 4.5 times larger than the mean value 0.6 of the other optical TDEs. However, after considering similar but more flexible model functions, the re-determined R2/1,rd is 0.9 in AT2020wey, totally similar as the values of the other optical TDEs. Therefore, the parameter R1/2,rd0.6 could be a potential classification parameter for optical TDEs. Furthermore, R1/2,rd have been checked in the unique optical transients of AT2019avd, PS1-10adi, SDSS J0946+3512 and J2334+1457. We can find that the second flare with R1/2,rd11 in AT2019avd should be very different from the other optical TDEs, but PS1-10adi, SDSS J0946+3512, J2334+1457 and the first flare in AT2019avd should be similar as the other optical TDEs. In the near future, properties of R1/2,rd through large sample of optical transients could provide further clues to support whether R1/2,rd could be a better classification parameter to distinguish TDEs and the other transient events.
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