巴里奥拉-维伦金时空的空大地结构（通过 k-等价性

IF 1.8 4区物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS International Journal of Modern Physics D Pub Date : 2024-03-15 DOI:10.1142/s0218271824500056

Bivash Majumder, Saibal Ray, Goutam Manna

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引用次数: 0

摘要

基于钱德拉塞卡（Chandrasekhar）的研究成果[《黑洞数学理论》，第 3 章，第 20 节（牛津大学出版社，1992 年）]，我们研究了 k-essence 理论背景下出现的巴里奥拉-维伦金（BV）时空的空大地结构。对于 k-essence，新兴引力度量与与施瓦兹柴尔德背景相连的 BV 度量是一一对应的，其中全局单极电荷被暗能量密度所取代。这种等价性特别适用于 Gangopadhyay 和 Manna 构建的某类 k-essence标量场[《欧洲物理快报》100, 49001 (2012)]。在暗能量存在的情况下，我们为 k-essence 出现的 BV 时空追踪了空大地线的不同轨迹。结果表明，由于暗能量密度恒定的基本构型，这些轨迹偏离了典型的施瓦兹柴尔德时空。

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Null geodesic structure for the Barriola–Vilenkin spacetime via k-essence

Based on the work of Chandrasekhar [The Mathematical Theory of Black Holes, Chap. 3, Sec. 20 (Oxford University Press, 1992)], we investigate the null geodesic structure of the emergent Barriola–Vilenkin (BV) spacetime in the context of k-essence theory. For k-essence, the emergent gravity metric is a one-to-one correspondence with the BV metric connected to the Schwarzschild background, where the global monopole charge is replaced by the dark energy density. This equivalence holds specifically for a certain class of k-essence scalar fields that have been constructed by Gangopadhyay and Manna [Eur. Phys. Lett. 100, 49001 (2012)]. We have traced out different trajectories for null geodesic in the presence of dark energy for the k-essence emergent BV spacetime. It is demonstrated that the outcomes deviate from the typical Schwarzschild spacetime owing to the fundamental configuration with a constant dark energy density.

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来源期刊

International Journal of Modern Physics D 地学天文-天文与天体物理

CiteScore

3.80

自引率

9.10%

发文量

181

审稿时长

4-8 weeks

期刊介绍： Gravitation, astrophysics and cosmology are exciting and rapidly advancing fields of research. This journal aims to accommodate and promote this expansion of information and ideas and it features research papers and reviews on theoretical, observational and experimental findings in these fields. Among the topics covered are general relativity, quantum gravity, gravitational experiments, quantum cosmology, observational cosmology, particle cosmology, large scale structure, high energy astrophysics, compact objects, cosmic particles and radiation.