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Main Authors: Cao, Z., Jonker, P. G., Wen, S., Zabludoff, A. I.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.17695
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author Cao, Z.
Jonker, P. G.
Wen, S.
Zabludoff, A. I.
author_facet Cao, Z.
Jonker, P. G.
Wen, S.
Zabludoff, A. I.
contents The origin of the most luminous subclass of the fast blue optical transients (LFBOTs) is still unknown. We present an X-ray spectral analysis of AT2018cow-the LFBOT archetype-using NuSTAR, Swift, and XMM-Newton data. The source spectrum can be explained by the presence of a slim accretion disk, and we find that the mass accretion rate decreases to sub-Eddington levels >~ 200 days after the source's discovery. Applying our slim disk model to data obtained at multiple observational epochs, we constrain the mass of the central compact object in AT2018cow to be log(M_BH/Msun)=2.4+0.6/-0.1 at the 68% confidence level. Our mass measurement is independent from, but consistent with, the results from previously employed methods. The mass constraint is consistent with both the tidal disruption and the black hole-star merger scenarios, if the latter model can be extrapolated to the measured black hole mass. Our work provides evidence for an accreting intermediate-mass black hole (10^2--10^6 Msun) as the central engine in AT2018cow, and, by extension, in LFBOT sources similar to AT2018cow.
format Preprint
id arxiv_https___arxiv_org_abs_2409_17695
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Slim disk modeling reveals an accreting intermediate-mass black hole in the luminous fast blue optical transient AT2018cow
Cao, Z.
Jonker, P. G.
Wen, S.
Zabludoff, A. I.
High Energy Astrophysical Phenomena
The origin of the most luminous subclass of the fast blue optical transients (LFBOTs) is still unknown. We present an X-ray spectral analysis of AT2018cow-the LFBOT archetype-using NuSTAR, Swift, and XMM-Newton data. The source spectrum can be explained by the presence of a slim accretion disk, and we find that the mass accretion rate decreases to sub-Eddington levels >~ 200 days after the source's discovery. Applying our slim disk model to data obtained at multiple observational epochs, we constrain the mass of the central compact object in AT2018cow to be log(M_BH/Msun)=2.4+0.6/-0.1 at the 68% confidence level. Our mass measurement is independent from, but consistent with, the results from previously employed methods. The mass constraint is consistent with both the tidal disruption and the black hole-star merger scenarios, if the latter model can be extrapolated to the measured black hole mass. Our work provides evidence for an accreting intermediate-mass black hole (10^2--10^6 Msun) as the central engine in AT2018cow, and, by extension, in LFBOT sources similar to AT2018cow.
title Slim disk modeling reveals an accreting intermediate-mass black hole in the luminous fast blue optical transient AT2018cow
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2409.17695