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Multiwavelength observations of the extraordinary accretion event AT2021lwx

Wiseman, P., Wang, Y., Hönig, S., Castro-Segura, N.., Clark, P., Frohmaier, C., Fulton, M. D., Leloudas, G., Middleton, M., Müller-Bravo, T. E., Mummery, A., Pursiainen, M., Smartt, S. J., Smith, K., Sullivan, M., Anderson, J. P., Acosta Pulido, J. A., Charalampopoulos, P., Banerji, M., Dennefeld, M., Galbany, L., Gromadzki, M., Gutiérrez, C. P., Ihanec, N., Kankare, E., Lawrence, A., Mockler, B.., Moore, T., Nicholl, M., Onori, F., Petrushevska, T., Ragosta, F., Rest, S.., Smith, M., Wevers, T., Carini, R., Chen, T.-W., Chambers, K.., Gao, H, Huber, M., Inserra, C. ORCID:, Magnier, E., Makrygianni, L., Toy, M., Vincentelli, F. and Young, D. R. 2023. Multiwavelength observations of the extraordinary accretion event AT2021lwx. Monthly Notices of the Royal Astronomical Society 522 (3) , 3992–4002. 10.1093/mnras/stad1000

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We present observations from X-ray to mid-infrared wavelengths of the most energetic non-quasar transient ever observed, AT2021lwx. Our data show a single optical brightening by a factor >100 to a luminosity of 7 × 1045 erg s−1 and a total radiated energy of 1.5 × 1053 erg, both greater than any known optical transient. The decline is smooth and exponential and the ultraviolet–optical spectral energy distribution resembles a blackbody with a temperature of 1.2 × 104 K. Tentative X-ray detections indicate a secondary mode of emission, while a delayed mid-infrared flare points to the presence of dust surrounding the transient. The spectra are similar to recently discovered optical flares in known active galactic nuclei but lack some characteristic features. The lack of emission for the previous 7 yr is inconsistent with the short-term, stochastic variability observed in quasars, while the extreme luminosity and long time-scale of the transient disfavour the disruption of a single solar-mass star. The luminosity could be generated by the disruption of a much more massive star, but the likelihood of such an event occurring is small. A plausible scenario is the accretion of a giant molecular cloud by a dormant black hole of 108–109 solar masses. AT2021lwx thus represents an extreme extension of the known scenarios of black hole accretion.

Item Type: Article
Date Type: Publication
Status: Published
Schools: Physics and Astronomy
Publisher: Oxford University Press
ISSN: 0035-8711
Date of First Compliant Deposit: 3 July 2023
Date of Acceptance: 31 March 2023
Last Modified: 05 Jul 2023 07:12

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