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Title: | Roaring to Softly Whispering: X-Ray Emission after ∼3.7 yr at the Location of the Transient AT2018cow and Implications for Accretion-powered Scenarios* |
Authors: | Migliori, Giulia Margutti, R Metzger, B. D Chornock, R Vignali, C Brethauer, D Coppejans, D. L Maccarone, T Sandoval, L. Rivera Bright, J. S Laskar, T Milisavljevic, D Berger, E Nayana, A. J |
Keywords: | Accretion Stellar accretion disks Supernovae Black holes High energy astrophysics X-ray astronomy Transient sources X-ray transient sources |
Issue Date: | 1-Mar-2024 |
Publisher: | American Astronomical Society |
Citation: | The Astrophysical Journal Letters, Vol. 963, No. 1, L24 |
Abstract: | We present the first deep X-ray observations of luminous fast blue optical transient (LFBOT) AT 2018cow at ∼3.7 yr since discovery, together with the reanalysis of the observation at δt ∼ 220 days. X-ray emission is significantly detected at a location consistent with AT 2018cow. The very soft X-ray spectrum and sustained luminosity are distinct from the spectral and temporal behavior of the LFBOT in the first ∼100 days and would possibly signal the emergence of a new emission component, although a robust association with AT 2018cow can only be claimed at δt ∼ 220 days, while at δt ∼ 1350 days contamination of the host galaxy cannot be excluded. We interpret these findings in the context of the late-time panchromatic emission from AT 2018cow, which includes the detection of persistent, slowly fading UV emission with νLν ≈ 1039 erg s−1. Similar to previous works (and in analogy with arguments for ultraluminous X-ray sources), these late-time observations are consistent with thin disks around intermediate-mass black holes (with M• ≈ 103 –104 M☉) accreting at sub-Eddington rates. However, differently from previous studies, we find that smaller-mass black holes with M• ≈ 10–100 M☉ accreting at ≳ the Eddington rate cannot be ruled out and provide a natural explanation for the inferred compact size (Rout ≈ 40 R☉) of the accretion disk years after the optical flare. Most importantly, irrespective of the accretor mass, our study lends support to the hypothesis that LFBOTs are accretion-powered phenomena and that, specifically, LFBOTs constitute electromagnetic manifestations of super Eddington accreting systems that evolve to ≲Eddington over a ≈100-day timescale. |
Description: | Open Access. Original content from this work may be used under the terms of the Creative Commons Attribution 4.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI. |
URI: | http://hdl.handle.net/2248/8379 |
ISSN: | 2041-8205 |
Appears in Collections: | IIAP Publications |
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