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Main Authors: Brahma, Ranchhaigiri, Sen, A. K.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.01932
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author Brahma, Ranchhaigiri
Sen, A. K.
author_facet Brahma, Ranchhaigiri
Sen, A. K.
contents In this paper we analyze the spacetime geometry due to a Schwarzschild object having uniform accelerated motion. In the beginning, we investigate the gravitational field due to a uniformly moving Schwarzschild object and obtain the spacetime line element for such an object. After analyzing the necessary limiting conditions, the obtained line element is found to be consistent. Next, we extend our work to a uniformly accelerated Schwarzschild object. In that case, we obtain the spacetime line element for both when the acceleration is along the $X-$direction and when the acceleration is in an arbitrary direction on the $XY$ plane (in the later case $X$ may be some third reference direction, which may be useful for future work). The limiting conditions of those line elements have been examined. Such work will have relevant applications in astrophysics when we calculate the geodesic equations of test particles in the gravitational field of objects having uniform accelerated motion.
format Preprint
id arxiv_https___arxiv_org_abs_2405_01932
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The extension of Schwarzschild line element to include uniformly accelerated mass
Brahma, Ranchhaigiri
Sen, A. K.
General Relativity and Quantum Cosmology
In this paper we analyze the spacetime geometry due to a Schwarzschild object having uniform accelerated motion. In the beginning, we investigate the gravitational field due to a uniformly moving Schwarzschild object and obtain the spacetime line element for such an object. After analyzing the necessary limiting conditions, the obtained line element is found to be consistent. Next, we extend our work to a uniformly accelerated Schwarzschild object. In that case, we obtain the spacetime line element for both when the acceleration is along the $X-$direction and when the acceleration is in an arbitrary direction on the $XY$ plane (in the later case $X$ may be some third reference direction, which may be useful for future work). The limiting conditions of those line elements have been examined. Such work will have relevant applications in astrophysics when we calculate the geodesic equations of test particles in the gravitational field of objects having uniform accelerated motion.
title The extension of Schwarzschild line element to include uniformly accelerated mass
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2405.01932