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Main Authors: Pang, Xiankai, Jiang, Qingquan, Xiang, Yunchuan, Deng, Gao-Ming
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.04323
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author Pang, Xiankai
Jiang, Qingquan
Xiang, Yunchuan
Deng, Gao-Ming
author_facet Pang, Xiankai
Jiang, Qingquan
Xiang, Yunchuan
Deng, Gao-Ming
contents In this work, we will explore the precession of particle spins in spherical spacetimes. We first argue that the geometrical optics (WKB) approximation is insufficient, due to the absence of a glory spot in the backward scattering of massless particles, making an analysis of spin precession necessary. We then derive the precession equation assuming the spin is parallel transported, which is supported by the sub-leading order of the WKB approximation. The precession equation applies to both massless and massive particles. For particles moving at the speed of light, we show that spin is always reversed after backward scattering in any spherically symmetric spacetime, confirming the absence of a glory spot for massless particles. Finally, we solve the precession equation for Schwarzschild and Reissner-Nordström spacetimes and discuss the spin precession of massive particles, particularly in the non-relativistic limit. We find that, in Schwarzschild spacetime, the spin precession for particles moving with very small velocities compared to the speed of light depends only on the deflection angle, while in Reissner-Nordström spacetime, it also depends on the black hole charge, as revealed by the expansion derived from the strong lensing approximation.
format Preprint
id arxiv_https___arxiv_org_abs_2410_04323
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The precession of particle spin in spherical symmetric spacetimes
Pang, Xiankai
Jiang, Qingquan
Xiang, Yunchuan
Deng, Gao-Ming
General Relativity and Quantum Cosmology
In this work, we will explore the precession of particle spins in spherical spacetimes. We first argue that the geometrical optics (WKB) approximation is insufficient, due to the absence of a glory spot in the backward scattering of massless particles, making an analysis of spin precession necessary. We then derive the precession equation assuming the spin is parallel transported, which is supported by the sub-leading order of the WKB approximation. The precession equation applies to both massless and massive particles. For particles moving at the speed of light, we show that spin is always reversed after backward scattering in any spherically symmetric spacetime, confirming the absence of a glory spot for massless particles. Finally, we solve the precession equation for Schwarzschild and Reissner-Nordström spacetimes and discuss the spin precession of massive particles, particularly in the non-relativistic limit. We find that, in Schwarzschild spacetime, the spin precession for particles moving with very small velocities compared to the speed of light depends only on the deflection angle, while in Reissner-Nordström spacetime, it also depends on the black hole charge, as revealed by the expansion derived from the strong lensing approximation.
title The precession of particle spin in spherical symmetric spacetimes
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2410.04323