N. I. Maxted, A. J. Ruiter, K. Belczynski, I. R. Seitenzahl, R. M. Crocker
Published 2020-10-29Version 1
Energy released when the core of a high-mass star collapses into a black hole often powers an explosion that creates a supernova remnant. Black holes have limited windows of observability, and consequently are rarely identified in association with supernova remnants. Analysing multi-messenger data, we show that MAXI J1535-571 is the black hole produced in the stellar explosion that gave rise to the supernova remnant G323.7-1.0, making it the first case of an association between a black hole low-mass X-ray binary and a supernova remnant. Given this connection, we can infer from our modelling that the progenitor system was a close binary whose primary star had an initial mass of approx. 23-35 solar masses with a companion star about 10 times less massive.
Comments: 4 pages text + 2 figures (8 pages total). To be submitted. Comments and feedback welcome!
A Neutron Star with a Carbon Atmosphere in the Cassiopeia A Supernova Remnant
4FGL J1844.4-0306: high-energy emission likely from the supernova remnant G29.37+0.1
The Disk Veiling Effect of the Black Hole Low-Mass X-ray Binary A0620-00
![QR code for arXiv:2010.15341 [astro-ph.HE]](http://oss.arxitics.com/images/favicon.svg)