Optical polarization from colliding stellar stream shocks in a tidal disruption event.
Ioannis LiodakisK I I KoljonenDmitry BlinovE LindforsKate D AlexanderT HovattaM BertonA HajelaJenni JormanainenK KouroumpatzakisN MandarakasK NilssonPublished in: Science (New York, N.Y.) (2023)
A tidal disruption event (TDE) occurs when a supermassive black hole rips apart a passing star. Part of the stellar material falls toward the black hole, forming an accretion disk that in some cases launches a relativistic jet. We performed optical polarimetry observations of a TDE, AT 2020mot. We find a peak linear polarization degree of 25 ± 4%, consistent with highly polarized synchrotron radiation, as is typically observed from relativistic jets. However, our radio observations, taken up to 8 months after the optical peak, do not detect the corresponding radio emission expected from a relativistic jet. We suggest that the linearly polarized optical emission instead arises from shocks that occur during accretion disk formation, as the stream of stellar material collides with itself.