A1 Refereed original research article in a scientific journal
Real-time discovery of AT2020xnd: a fast, luminous ultraviolet transient with minimal radioactive ejecta
Authors: Perley Daniel A, Ho Anna YQ, Yao Yuhan, Fremling Christoffer, Anderson Joseph P, Schulze Steve, Kumar Harsh, Anupama GC, Barway Sudhanshu, Bellm Eric C, Bhalerao Varun, Chen Ting-Wan, Duev Dimitry A, Galbany Lluís, Graham MatthewJ, Gromadzki Mariusz, Gutierrez Claudia P, Ihanec Nada, Inserra Cosimo, Kasliwal Mansi M, Kool Erik C, Kulkarni SR, Laher Russ R, Masci Frank J, Neill James D, Nicholl Matt, Pursiainen Miika, Van Roestel Joannes, Sharma Yashvi, Sollerman Jesper, Walters Richard, Wiseman Philip
Publisher: Oxford University Press
Publication year: 2021
Journal: Monthly Notices of the Royal Astronomical Society
Journal name in source: MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Journal acronym: MON NOT R ASTRON SOC
Volume: 508
Issue: 4
First page : 5138
Last page: 5147
Number of pages: 10
ISSN: 0035-8711
eISSN: 1365-2966
DOI: https://doi.org/10.1093/mnras/stab2785
Self-archived copy’s web address: https://research.utu.fi/converis/portal/detail/Publication/67996791
The many unusual properties of the enigmatic AT2018cow suggested that at least some subset of the empirical class of fast blue optical transients (FBOTs) represents a genuinely new astrophysical phenomenon. Unfortunately, the intrinsic rarity and fleeting nature of these events have made it difficult to identify additional examples early enough to acquire the observations necessary to constrain theoretical models. We present here the Zwicky Transient Facility discovery of AT2020xnd (ZTF20acigmel, the 'Camel') at z = 0.243, the first unambiguous AT2018cow analogue to be found and confirmed in real time. AT2018cow and AT2020xnd share all key observational properties: a fast optical rise, sustained high photospheric temperature, absence of a second peak attributable to ejection of a radioactively heated stellar envelope, extremely luminous radio, millimetre, and X-ray emission, and a dwarf-galaxy host. This supports the argument that AT2018cow-like events represent a distinct phenomenon from slower-evolving radio-quiet supernovae, likely requiring a different progenitor or a different central engine. The sample properties of the four known members of this class to date disfavour tidal disruption models but are consistent with the alternative model of an accretion powered jet following the direct collapse of a massive star to a black hole. Contextual filtering of alert streams combined with rapid photometric verification using multiband imaging provides an efficient way to identify future members of this class, even at high redshift.
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