Weak Deflection Angle by the Einstein–Cartan Traversable Wormhole Using Gauss–Bonnet Theorem with Time Delay

IF 2.5 4区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
Universe Pub Date : 2024-08-16 DOI:10.3390/universe10080331
Susmita Sarkar, Nayan Sarkar, Abhisek Dutta, Farook Rahaman
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Abstract

In this article, we estimate the gravitational deflection angles of light in the spacetime of Einstein–Cartan wormholes supported by normal matter or phantom energy utilizing the Gauss–Bonnet theorem. The obtained deflection angles are examined in relation to the wormhole throat radius r0 and the equation of state parameter ω across four scenarios, and it has been seen that the larger throat radii r0 result in higher deflection angles. Moreover, the wormholes filled with phantom energy exhibit greater deflection angles compared to those filled with normal matter. The reported deflection angles are influenced by dark matter and Maxwell’s fish eye matter: Dark matter, as well as Maxwell’s fish eye matter, increases the deflection angles. The deflection angle is also estimated using the Keeton and Petters method, which is proportional to wormhole throat r0 and inversely proportional to the impact parameter b. Additionally, a comparative study is performed on the deflection angles obtained from four different scenarios. Finally, analytical results for time delay due to Einstein–Cartan wormholes are estimated for the four ω cases which are decreasing for increasing values of rc.
利用高斯-波内特定理和时间延迟计算爱因斯坦-卡尔坦可穿越虫洞的弱偏转角
在这篇文章中,我们利用高斯-波内定理估算了由正常物质或幽灵能量支撑的爱因斯坦-卡尔坦虫洞时空中光的引力偏转角。研究了四种情况下得到的偏转角与虫洞洞喉半径r0和状态方程参数ω的关系,发现洞喉半径r0越大,偏转角越大。此外,与充满普通物质的虫洞相比,充满幽灵能量的虫洞表现出更大的偏转角。所报告的偏转角受到暗物质和麦克斯韦鱼眼物质的影响:暗物质和麦克斯韦鱼眼物质会增大偏转角。此外,还使用 Keeton 和 Petters 方法估算了偏转角,该方法与虫洞喉管 r0 成正比,与撞击参数 b 成反比。最后,估算了四种 ω 情况下爱因斯坦-卡尔坦虫洞引起的时间延迟的分析结果,这些结果随着 rc 值的增大而减小。
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
Universe
Universe Physics and Astronomy-General Physics and Astronomy
CiteScore
4.30
自引率
17.20%
发文量
562
审稿时长
24.38 days
期刊介绍: Universe (ISSN 2218-1997) is an international peer-reviewed open access journal focused on fundamental principles in physics. It publishes reviews, research papers, communications, conference reports and short notes. Our aim is to encourage scientists to publish their research results in as much detail as possible. There is no restriction on the length of the papers.
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