Imprints of Dark Photons on Gravitational Wave Polarizations

arXiv - PHYS - High Energy Physics - Phenomenology Pub Date : 2024-09-16 DOI:arxiv-2409.10471
Kimihiro Nomura, Jiro Soda, Kazushige Ueda, Ziwei Wang
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Abstract

We study conversion processes between gravitons and dark photons and reveal the effects of dark photons on the polarization of gravitational waves. Considering cosmological dark magnetic fields, we investigate the evolution of the intensity and polarization of gravitational waves through the conversion. Specifically, we demonstrate that for minimal coupling between gravitons and dark photons, the intensity, circular polarization, and linear polarization evolve separately. We derive explicit formulas for the statistical mean and variance of the intensity and polarization when the gravitational waves pass through magnetic fields with random orientation. The formulas capture how the initial polarization of dark photons will be imprinted on the observed gravitational wave background.
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暗光子对引力波偏振的影响
我们研究了引力子和暗光子之间的转换过程,揭示了暗光子对引力波偏振的影响。考虑到宇宙学暗磁场,我们研究了引力波的强度和偏振在转换过程中的演变。具体地说,我们证明了在引力子和暗光子之间耦合最小的情况下,引力波的强度、圆偏振和线性偏振会分别发生变化。我们推导出了引力波穿过随机方向磁场时强度和偏振的统计平均值和方差的明确公式。这些公式捕捉到了暗光子的初始极化将如何印刻在观测到的引力波背景上。
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arXiv - PHYS - High Energy Physics - Phenomenology
arXiv - PHYS - High Energy Physics - Phenomenology
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