Radio and X-ray observations of the luminous Fast Blue Optical Transient AT2020xnd

Abstract

We present deep X-ray and radio observations of the Fast Blue Optical Transient (FBOT) AT2020xnd/ZTF20acigmel at z=0.2433 from 13d to 269d after explosion. AT2020xnd belongs to the category of optically luminous FBOTs with similarities to the archetypal event AT2018cow. AT2020xnd shows luminous radio emission reaching L≈8×1029ergs-1Hz-1 at 20GHz and 75d post explosion, accompanied by luminous and rapidly fading soft X-ray emission peaking at LX≈6×1042ergs-1. Interpreting the radio emission in the context of synchrotron radiation from the explosion's shock interaction with the environment we find that AT2020xnd launched a high-velocity outflow (v0.1-0.2c) propagating into a dense circumstellar medium (effective M≈10-3Msolyr-1 for an assumed wind velocity of vw=1000kms-1). Similar to AT2018cow, the detected X-ray emission is in excess compared to the extrapolated synchrotron spectrum and constitutes a different emission component, possibly powered by accretion onto a newly formed black hole or neutron star. These properties make AT2020xnd a high-redshift analog to AT2018cow, and establish AT2020xnd as the fourth member of the class of optically-luminous FBOTs with luminous multi-wavelength counterparts.

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