The Fast, Luminous Ultraviolet Transient AT2018cow: Extreme Supernova,   or Disruption of a Star by an Intermediate-Mass Black Hole?

Daniel A. Perley; Paolo A. Mazzali; Lin Yan; S. Bradley Cenko; Suvi; Gezari; Kirsty Taggart; Nadia Blagorodnova; Christoffer Fremling; Brenna; Mockler; Avinash Singh; Nozomu Tominaga; Masaomi Tanaka; Alan M. Watson,; Tom\'as Ahumada; G. C. Anupama; Chris Ashall; Rosa L. Becerra; David Bersier,; Varun Bhalerao; Joshua S. Bloom; Nathaniel R. Butler; Chris Copperwheat,; Michael W. Coughlin; Kishalay De; Andrew J. Drake; Dmitry A. Duev; Sara; Frederick; J. Jes\'us Gonz\'alez; Ariel Goobar; Marianne Heida; Anna Y. Q.; Ho; John Horst; Tiara Hung; Ryosuke Itoh; Jacob E. Jencson; Mansi M.; Kasliwal; Nobuyuki Kawai; Shrinivas R. Kulkarni; Brajesh Kumar; Harsh Kumar,; Alexander S. Kutyrev; Tanazza Khanam; William H. Lee; Keiichi Maeda; Ashish; Mahabal; Katsuhiro L. Murata; James D. Neill; Chow-Choong Ngeow; Bryan; Penprase; Elena Pian; Robert Quimby; Enrico Ramirez-Ruiz; Michael Richer,; Carlos G. Rom\'an-Z\'u\~niga; Shubham Srivastava; Quentin Socia; Jesper; Sollerman; Yutaro Tachibana; Francesco Taddia; Samaporn Tinyanont; Eleonora; Troja; Charlotte Ward; Jerrick Wee

arXiv:1808.00969·astro-ph.HE·January 9, 2019

The Fast, Luminous Ultraviolet Transient AT2018cow: Extreme Supernova, or Disruption of a Star by an Intermediate-Mass Black Hole?

Daniel A. Perley, Paolo A. Mazzali, Lin Yan, S. Bradley Cenko, Suvi, Gezari, Kirsty Taggart, Nadia Blagorodnova, Christoffer Fremling, Brenna, Mockler, Avinash Singh, Nozomu Tominaga, Masaomi Tanaka, Alan M. Watson,, Tom\'as Ahumada, G. C. Anupama, Chris Ashall, Rosa L. Becerra

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TL;DR

AT2018cow is a unique fast, luminous transient with unusual spectral evolution, possibly caused by a relativistic jet in a fallback supernova or star disruption by an intermediate-mass black hole, indicating a new class of astrophysical events.

Contribution

This study provides the first detailed, real-time observations of AT2018cow, revealing its unique properties and proposing potential origins, thus identifying a new class of fast luminous transients.

Findings

01

Spectra are initially featureless, then develop broad absorption and emission features.

02

The transient remains extremely hot with a contracting photosphere over time.

03

Its properties do not match known supernovae, suggesting a different origin.

Abstract

Wide-field optical surveys have begun to uncover large samples of fast (t_rise < 5d), luminous (M_peak < -18), blue transients. While commonly attributed to the breakout of a supernova shock into a dense wind, the great distances to the transients of this class found so far have hampered detailed investigation of their properties. We present photometry and spectroscopy from a comprehensive worldwide campaign to observe AT2018cow (ATLAS18qqn), the first fast-luminous optical transient to be found in real time at low redshift. Our first spectra (<2 days after discovery) are entirely featureless. A very broad absorption feature suggestive of near-relativistic velocities develops between 3-8 days, then disappears. Broad emission features of H and He develop after >10 days. The spectrum remains extremely hot throughout its evolution, and the photospheric radius contracts with time (receding…

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