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Main Authors: Lin, Feng-Li, Patel, Avani, Payne, Jason
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.20181
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author Lin, Feng-Li
Patel, Avani
Payne, Jason
author_facet Lin, Feng-Li
Patel, Avani
Payne, Jason
contents Soft hairs are an intrinsic infrared feature of a black hole, which may also affect near-horizon physics. In this work, we study some of the subtleties surrounding one of the primary observables with which we can study their effects in the context of Einstein's gravity: the black hole shadow. First, we clarify the singular pathology associated with black holes with soft hairs and demonstrate that the metrics of linearly superrotated black holes are free of near-zone pathologies due to appropriate asymptotic falloff conditions being imposed on the event horizon. We then analytically construct the photon orbits around such black holes, derive the shadow equation for near-zone observers, and find that the linear superrotation hairs deform the circular shadow of a bald Schwarzchild black hole into an ellipse. This is in sharp contrast to their supertranslated counterparts, which only shift the position of the center of the circular shadow but do not change its shape. Our results suggest a richness to the observable effects due to the infrared structures of Einstein's gravity.
format Preprint
id arxiv_https___arxiv_org_abs_2405_20181
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Conic Sections on the Sky: Shadows of Linearly Superrotated Black Holes
Lin, Feng-Li
Patel, Avani
Payne, Jason
High Energy Physics - Theory
General Relativity and Quantum Cosmology
Soft hairs are an intrinsic infrared feature of a black hole, which may also affect near-horizon physics. In this work, we study some of the subtleties surrounding one of the primary observables with which we can study their effects in the context of Einstein's gravity: the black hole shadow. First, we clarify the singular pathology associated with black holes with soft hairs and demonstrate that the metrics of linearly superrotated black holes are free of near-zone pathologies due to appropriate asymptotic falloff conditions being imposed on the event horizon. We then analytically construct the photon orbits around such black holes, derive the shadow equation for near-zone observers, and find that the linear superrotation hairs deform the circular shadow of a bald Schwarzchild black hole into an ellipse. This is in sharp contrast to their supertranslated counterparts, which only shift the position of the center of the circular shadow but do not change its shape. Our results suggest a richness to the observable effects due to the infrared structures of Einstein's gravity.
title Conic Sections on the Sky: Shadows of Linearly Superrotated Black Holes
topic High Energy Physics - Theory
General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2405.20181