期刊
EPL
卷 139, 期 5, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1209/0295-5075/ac8a13
关键词
-
资金
- MINECO (Spain) [PID2019-104397GB-I00]
- program Unidad de Excelencia Maria de Maeztu, Spain [CEX2020-001058-M]
This study investigates the possible effects of a pressure cosmological singularity on the circular photon orbits and the shadow of galactic supermassive black holes at cosmological redshifts. The research suggests that a difference in the shadow of some observed black holes in the future could be explained by a pressure singularity and potentially resolve the H-0-tension problem. Additionally, if a sample of shadows with specific redshift differences is observed in the future, it could indicate the occurrence of a pressure singularity.
The black hole observations obtained so far indicate one thing: similar donuts exist in the sky. But what if some of the observed black hole shadows that will be obtained in the future are different from the others? In this work the aim is to show that a difference in the shadow of some observed black holes in the future might explain the H-0-tension problem. In this letter we investigate the possible effects of a pressure cosmological singularity on the circular photon orbits and the shadow of galactic supermassive black holes at cosmological redshifts. Since the pressure singularity is a global event in the Universe, the effects of the pressure singularity will be imposed on supermassive black holes at a specific redshift. As we show, the pressure singularity affects the circular photon orbits around cosmological black holes described by the McVittie metric, and specifically, for some time before the time instance that the singularity occurs, the photon orbits do not exist. We discuss the possible effects of the absence of circular photon orbits on the shadow of these black holes. Our idea indicates that if a pressure singularity occurred in the near past, then this could have a direct imprint on the shadow of supermassive galactic black holes at the redshift corresponding to the time instance that the singularity occurred in the past. Thus, if a sample of shadows is observed in the future for redshifts z < 0.01, and for a specific redshift differences are found in the shadows, this could be an indication that a pressure singularity occurred, and this global event might resolve the H-0-tension as discussed in previous work. However, the observation of several shadows at redshifts z < 0.01 is a rather far future task. Copyright (C) 2022 EPLA
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