Photon emissions from Kerr equatorial geodesic orbits
Abstract
We consider the light emitters moving freely along the geodesics on the equatorial plane near a Kerr black hole and study the observability of these emitters. To do so, we assume these emitters emit the photons isotropically and monochromatically, and we compute the photon escaping probability (PEP) and the maximum observable blueshift (MOB) of the photons that reach infinity. We obtain numerical results of PEP and MOB for the emitters along various geodesic orbits, which exhibit distinct features for the trajectories of different classes. We exhaustively investigate the effects of the emitters' motion on the PEP and MOB. In particular, we find that the plunging emitters approaching the unstable circular orbits could have very good observability, before fading away suddenly. This interesting observational feature becomes more significant for the high-energy emitters near a high-spin black hole. As the radiatively-inefficient accretion flow may consist of such plunging emitters, the present work could be of great relevance to the astrophysical observations.
Keywords
Cite
@article{arxiv.2211.09344,
title = {Photon emissions from Kerr equatorial geodesic orbits},
author = {Yanming Su and Minyong Guo and Haopeng Yan and Bin Chen},
journal= {arXiv preprint arXiv:2211.09344},
year = {2024}
}
Comments
23pages, 7 figures, final version that matches the one published in European Physical Journal C