AT2024wpp: An Extremely Luminous Fast Ultraviolet Transient Powered by Accretion onto a Black Hole

Daniel A. Perley; Anna Y. Q. Ho; Zo\"e McGrath; Michael Camilo; Cassie Sevilla; Ping Chen; Genevieve Schroeder; Taya Govreen-Segal; Aleksandra Bochenek; Yu-Jing Qin; James H. Gillanders; Benjamin Amend; Joseph P. Anderson; Igor Andreoni; Amar Aryan; Eric C. Bellm; Joshua S. Bloom; Thomas de Boer; Jonathan Carney; Ilaria Caiazzo; Ken C. Chambers; Panos Charalampopoulos; Ting-Wan Chen; Tracy X. Chen; Eric R. Coughlin; Michael Coughlin; Michel Dennefeld; Georgios Dimitriadis; Christoffer Fremling; Danielle Frostig; Avishay Gal-Yam; Llu\'is Galbany; Anjashay Gangopadhyay; Melzie Ghendrih; Matthew J. Graham; Mariusz Gromadzki; Steven L. Groom; Claudia P. Guti\'errez; K.-Ryan Hinds; Mark E. Huber; Cosimo Inserra; Benjamin C. Kaiser; Mansi M. Kasliwal; Niilo E. Koivisto; Chien-Cheng Lin; Chang Liu; Thomas B. Lowe; Eugene Magnier; Ashish A. Mahabal; Andrew Milligan; Paloma Minguez; Geoffrey Mo; Tom\'as E. M\"uller-Bravo; Matt Nicholl; Priscila J. Pessi; Giuliano Pignata; Josiah Purdum; Nabeel Rehemtulla; R. Michael Rich; Anwesha Sahu; Avinash Singh; Stephen J. Smartt; Jesper Sollerman; Gokul Srinivasaragavan; Shubham Srivastav; Robert D. Stein; Steve Schulze; Jack W. Tweddle; Richard Wainscoat; Jacob L. Wise; Lin Yan; David R. Young

arXiv:2601.03337·astro-ph.HE·May 20, 2026

AT2024wpp: An Extremely Luminous Fast Ultraviolet Transient Powered by Accretion onto a Black Hole

Daniel A. Perley, Anna Y. Q. Ho, Zo\"e McGrath, Michael Camilo, Cassie Sevilla, Ping Chen, Genevieve Schroeder, Taya Govreen-Segal, Aleksandra Bochenek, Yu-Jing Qin, James H. Gillanders, Benjamin Amend, Joseph P. Anderson, Igor Andreoni, Amar Aryan, Eric C. Bellm

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TL;DR

The paper reports the discovery and detailed multiwavelength observation of AT2024wpp, an extremely luminous, fast ultraviolet transient powered by accretion onto a black hole, with unprecedented early data and spectral analysis.

Contribution

It provides the first detailed early observations and modeling of an 18cow-like transient, revealing insights into its luminosity, ejecta, and central engine.

Findings

01

Peak bolometric luminosity of 2x10^45 erg/s

02

Maximum photospheric radius of 10^15 cm

03

Total radiated energy of 10^51 erg

Abstract

We present the discovery of AT 2024wpp ("Whippet"), a fast and luminous 18cow-like transient. At a redshift of z=0.0868, revealed by Keck Cosmic Web Imager spectroscopy of its faint star-forming host, it is the fourth-nearest example of its class to date. Rapid identification of the source in the Zwicky Transient Facility data stream permitted ultraviolet-through-optical observations to be obtained prior to peak, allowing the first determination of the peak bolometric luminosity (2x10^45 erg/s), maximum photospheric radius (10^15 cm), and total radiated energy (10^51 erg) of an 18cow-like object. We present results from a comprehensive multiwavelength observing campaign, including a far-UV spectrum from the Cosmic Origins Spectrograph on the Hubble Space Telescope and deep imaging extending >100 days post-explosion from the Very Large Telescope, Hubble Space Telescope, Very Large Array,…

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