Eur. Phys. J. C (2022) 82: 81
https://doi.org/10.1140/epjc/s10052-022-10032-6

Regular Article - Theoretical Physics

Influence of torsion charge on shadow and observation signature of black hole surrounded by various profiles of accretions

¹ College of Physics, Chongqing University, 401331, Chongqing, China
² Physics and Space College, China West Normal University, 637000, Nanchong, China

^c gpliphys@yeah.net

Received: 3 February 2021
Accepted: 16 January 2022
Published online: 27 January 2022

Abstract

In this paper, we carefully study the shadow and observational signature of the black hole with torsion charge for a distant observer, and further compare the results with that gotten in Schwarzschild spacetime. For thin disk accretion cases, the result shows that there are not only dark areas in the observed image of black hole, but also photon rings and lensing rings, which are closely associated with the torsion charge. The change of torsion charge will directly affect the range of photon ring and lens ring, and the contribution proportion of these rings to the observed intensity. In addition, the total flux of observed intensity is mainly provided by direct emission, and the lensing ring and photon ring contribute only a small part. By further considering the static and infalling cases of spherically symmetric accretion, one can find that the observed image is much darker for the falling accretion matters, but the shadow radius does not change. However, both the observed intensity and shadow size are significantly different when the torsion charge changes. That is, the size of the observed shadow is related to the spacetime geometry. In addition, based on the shadow of M87, we also constraint the torsion charge of black hole by using the diameter of shadow approximately. Finally, by comparing our results and that in Schwarzschild spacetime, it shows that black hole shadow can provide a feasible method for distinguishing those two spacetime.