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Main Authors: Yu, Ze-Kai, Liu, Lei, Zhu, Tao
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2502.19836
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author Yu, Ze-Kai
Liu, Lei
Zhu, Tao
author_facet Yu, Ze-Kai
Liu, Lei
Zhu, Tao
contents The chiral scalar-tensor theory is an extension of the Chern-Simons modified gravity by introducing couplings between the first and second derivatives of the scalar field and parity-violating spacetime curvatures. A key feature of this theory is its explicit breaking of parity symmetry in the gravitational sector, which is expected to affect the spatial-time component of axisymmetric spacetime. In this paper, we investigate the effects of the chiral scalar-tensor theory on slowly rotating black holes by building on known solutions in the dynamical Chern-Simons modified gravity. Using perturbative methods with small coupling and slow rotation approximations, we find that the contributions of the chiral scalar-tensor theory appear at quadratic order in the spin and cubic order in the coupling constants. Furthermore, we explore the properties of this solution in the weak field and check its ergosphere and horizon. In the weak limit, we find that the effects of parity violation are suppressed in the weak field but could become significant in the strong field regime. These results provide insights into the behavior of parity-violating gravity in the presence of rotation and may be used for further investigations into its observational signatures.
format Preprint
id arxiv_https___arxiv_org_abs_2502_19836
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Slowly rotating black hole in chiral scalar-tensor theory
Yu, Ze-Kai
Liu, Lei
Zhu, Tao
General Relativity and Quantum Cosmology
The chiral scalar-tensor theory is an extension of the Chern-Simons modified gravity by introducing couplings between the first and second derivatives of the scalar field and parity-violating spacetime curvatures. A key feature of this theory is its explicit breaking of parity symmetry in the gravitational sector, which is expected to affect the spatial-time component of axisymmetric spacetime. In this paper, we investigate the effects of the chiral scalar-tensor theory on slowly rotating black holes by building on known solutions in the dynamical Chern-Simons modified gravity. Using perturbative methods with small coupling and slow rotation approximations, we find that the contributions of the chiral scalar-tensor theory appear at quadratic order in the spin and cubic order in the coupling constants. Furthermore, we explore the properties of this solution in the weak field and check its ergosphere and horizon. In the weak limit, we find that the effects of parity violation are suppressed in the weak field but could become significant in the strong field regime. These results provide insights into the behavior of parity-violating gravity in the presence of rotation and may be used for further investigations into its observational signatures.
title Slowly rotating black hole in chiral scalar-tensor theory
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2502.19836