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Autori principali: Shi, Jun-Xi, He, Zhen-Tao, Jiao, Jiageng, Lai, Jing-Qi, Shao, Caiying, Tian, Yu, Zhang, Hongbao
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2603.07469
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author Shi, Jun-Xi
He, Zhen-Tao
Jiao, Jiageng
Lai, Jing-Qi
Shao, Caiying
Tian, Yu
Zhang, Hongbao
author_facet Shi, Jun-Xi
He, Zhen-Tao
Jiao, Jiageng
Lai, Jing-Qi
Shao, Caiying
Tian, Yu
Zhang, Hongbao
contents Quadratic quasinormal modes (QQNMs) and Christodoulou memory effect are key nonlinear phenomena in gravitational wave physics. QQNMs characterize the near zone nonlinear response of a perturbed black hole, whereas the memory effect is a nonlinear remnant imprinted at null infinity by outgoing radiation. This naturally raises the question of whether and in what sense the two can be bridged. We show that they are related through bridge coefficients which depend primarily on remnant black hole parameters during ringdown. Future space-based gravitational wave detectors can probe this relation. These results provide a new avenue for testing gravity and a fresh perspective on the nonlinear regime of general relativity.
format Preprint
id arxiv_https___arxiv_org_abs_2603_07469
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Can Oscillatory and Persistent Nonlinearities Be Bridged in Black Hole Ringdown?
Shi, Jun-Xi
He, Zhen-Tao
Jiao, Jiageng
Lai, Jing-Qi
Shao, Caiying
Tian, Yu
Zhang, Hongbao
General Relativity and Quantum Cosmology
Quadratic quasinormal modes (QQNMs) and Christodoulou memory effect are key nonlinear phenomena in gravitational wave physics. QQNMs characterize the near zone nonlinear response of a perturbed black hole, whereas the memory effect is a nonlinear remnant imprinted at null infinity by outgoing radiation. This naturally raises the question of whether and in what sense the two can be bridged. We show that they are related through bridge coefficients which depend primarily on remnant black hole parameters during ringdown. Future space-based gravitational wave detectors can probe this relation. These results provide a new avenue for testing gravity and a fresh perspective on the nonlinear regime of general relativity.
title Can Oscillatory and Persistent Nonlinearities Be Bridged in Black Hole Ringdown?
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2603.07469