作为杰尼斯-纽曼-维尼柯裸奇点中光子-阿克塞转换特征的光子环暗化

arXiv - PHYS - High Energy Physics - Phenomenology Pub Date : 2024-09-15 DOI:arxiv-2409.09802

Ayush Hazarika, Premachand Mahapatra, Subhadip Sau

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摘要

宇宙中轴子的可能存在带来了在强磁场中光子-轴子转换的引人入胜的可能性，尤其是在超大质量黑洞甚至裸奇点等紧凑天体附近。在这项研究中，我们研究了光子在扬尼斯-纽曼-维尼柯（JNW）时空中向轴子的转换，这是一种著名的裸奇点解。我们的分析表明，光子可以有效地转换成质量小于100 \rm \ neV$的轴子。我们计算了转换概率，发现它受到JNW时空特征参数的显著影响。这种转换的潜在观测特征将是X射线和伽马射线频谱中光子环的变暗。我们的发现表明，如果未来高分辨率观测取得进展，像M87*这样的紧凑天体可能会成为探测光子-轴转换效应的主要候选天体。

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Photon Ring Dimming as a Signature of Photon-Axion Conversion in Janis-Newman-Winicour Naked Singularity

The possible existence of axions in the universe introduces the intriguing possibility of photon-axion conversion in strong magnetic fields, particularly near compact objects like supermassive black holes or even naked singularity. In this study, we investigate the conversion of photons into axions in the vicinity of a Janis-Newman-Winicour (JNW) spacetime, a well-known naked singularity solution. Our analysis reveals that photons can efficiently convert into axions with masses less than $100 \rm \ neV$. We calculate the conversion probability and find that it is significantly influenced by the characteristic parameter of the JNW spacetime. The potential observational signatures of this conversion, would be the dimming of photon ring in the X-ray and gamma-ray spectrum. Our findings suggest that compact objects like M87* could be prime candidates for detecting photon-axion conversion effects, provided future advances in high-resolution observations.

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arXiv - PHYS - High Energy Physics - Phenomenology

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