Null geodesics, thermodynamics, weak gravitational lensing, and black hole shadow characteristics of a Frolov regular black hole with constraints from EHT observations

IF 2.9 3区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY

The European Physical Journal Plus Pub Date : 2025-10-17 DOI:10.1140/epjp/s13360-025-06930-9

Shubham Kala, Hemwati Nandan, Kush Maithani, Saswati Roy, Amare Abebe

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Abstract

In this paper, we investigate the properties of null geodesics, thermodynamics, gravitational lensing, and black hole shadows in the vicinity of a static regular Frolov black hole. By analyzing the trajectories of null geodesics, we investigate the bending of light in weak field regimes. The black hole shadow is studied in detail, with constraints on its parameters derived from observational data of the EHT collaboration. Further, we examine shadow images under a spherically symmetric accretion flow and compute the energy emission rate to understand the black hole radiation characteristics. The obtained results demonstrate how the Frolov black hole differs from well-known black hole solutions, such as Schwarzschild, Reissner–Nordström, and Hayward black holes. This study provides new insights into the impact of modified non-rotating regular black hole metrics on observational signatures. The findings have significant implications for future astrophysical observations and the testing of alternative gravity theories.

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零测地线，热力学，弱引力透镜，以及具有EHT观测约束的Frolov规则黑洞的黑洞阴影特征

本文研究了静态规则Frolov黑洞附近的零测地线、热力学、引力透镜和黑洞阴影的性质。通过分析零测地线的轨迹，我们研究了光在弱场条件下的弯曲。对黑洞阴影进行了详细的研究，并根据EHT合作观测数据对其参数进行了约束。此外，我们研究了球对称吸积流下的阴影图像，并计算了能量发射率，以了解黑洞的辐射特征。获得的结果表明，Frolov黑洞与已知的黑洞解（如Schwarzschild， Reissner-Nordström和Hayward黑洞）有何不同。这项研究为改进的非旋转规则黑洞度量对观测特征的影响提供了新的见解。这些发现对未来的天体物理观测和替代引力理论的测试具有重要意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

The European Physical Journal Plus PHYSICS, MULTIDISCIPLINARY-

CiteScore

5.40

自引率

8.80%

发文量

1150

审稿时长

4-8 weeks

期刊介绍： The aims of this peer-reviewed online journal are to distribute and archive all relevant material required to document, assess, validate and reconstruct in detail the body of knowledge in the physical and related sciences. The scope of EPJ Plus encompasses a broad landscape of fields and disciplines in the physical and related sciences - such as covered by the topical EPJ journals and with the explicit addition of geophysics, astrophysics, general relativity and cosmology, mathematical and quantum physics, classical and fluid mechanics, accelerator and medical physics, as well as physics techniques applied to any other topics, including energy, environment and cultural heritage.