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Main Authors: Shao, Caiying, He, Zhen-Tao, Jiao, Jiageng, Lai, Jingqi, Shi, Jun-Xi, Tian, Yu, Yuan, Dandan, Zhang, Hongbao
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.16016
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author Shao, Caiying
He, Zhen-Tao
Jiao, Jiageng
Lai, Jingqi
Shi, Jun-Xi
Tian, Yu
Yuan, Dandan
Zhang, Hongbao
author_facet Shao, Caiying
He, Zhen-Tao
Jiao, Jiageng
Lai, Jingqi
Shi, Jun-Xi
Tian, Yu
Yuan, Dandan
Zhang, Hongbao
contents Nonlinear effects play a fundamental role in the late-time ringdown of black holes, with direct implications for gravitational-wave observations. For massive fields, these dynamics become richer, yet their nonlinear signatures remain poorly understood. Here, we systematically study nonlinear tails of massive scalar perturbations, from a toy model with ingoing and outgoing sources to a self-interacting scalar model, revealing nonlinear tails and contrasting the results with their linear counterparts. We find that the nonlinear tails of massive scalar fields, opposite to massless ones, decay as the same rate as linear tails in the intermediate time, independent of source parameters or initial conditions. Nevertheless, quadratic quasinormal modes could serve as a probe to the nonlinear effects of massive fields.
format Preprint
id arxiv_https___arxiv_org_abs_2601_16016
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Nonlinear tails of massive scalar fields around a black hole
Shao, Caiying
He, Zhen-Tao
Jiao, Jiageng
Lai, Jingqi
Shi, Jun-Xi
Tian, Yu
Yuan, Dandan
Zhang, Hongbao
General Relativity and Quantum Cosmology
Nonlinear effects play a fundamental role in the late-time ringdown of black holes, with direct implications for gravitational-wave observations. For massive fields, these dynamics become richer, yet their nonlinear signatures remain poorly understood. Here, we systematically study nonlinear tails of massive scalar perturbations, from a toy model with ingoing and outgoing sources to a self-interacting scalar model, revealing nonlinear tails and contrasting the results with their linear counterparts. We find that the nonlinear tails of massive scalar fields, opposite to massless ones, decay as the same rate as linear tails in the intermediate time, independent of source parameters or initial conditions. Nevertheless, quadratic quasinormal modes could serve as a probe to the nonlinear effects of massive fields.
title Nonlinear tails of massive scalar fields around a black hole
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2601.16016