重力F(R)理论中守恒电流的分析

Nayem Sk., Manas Chakrabortty, A. Sanyal
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引用次数: 2

摘要

F(R)引力理论声称,在诺特对称的强制下,遵循各种技术,承认大量的守恒电流。然而,对于一个受约束的系统,如引力,诺特对称不在壳上。因此,对称性不一定满足一般的场方程,特别是约束条件,除非对发生器进行修改以纳入约束条件。在本文中,我们应用泊松第一定理揭示了并非所有在F(R)引力理论文献中出现的守恒电流都满足场方程的事实。我们还提供了F(R)的可用形式以及相关的守恒电流的列表,并构造了一个广义作用,这可能会优雅地解决宇宙之谜。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analyzing conserved currents in F(R) theory of gravity
F(R) theory of gravity is claimed to admit a host of conserved currents under the imposition of Noether symmetry following various techniques. However, for a constrained system such as gravity, Noether symmetry is not on-shell. As a result, the symmetries do not necessarily satisfy the field equations in general, constraints in particular, unless the generator is modified to incorporate the constraints. In the present manuscript, we apply the first theorem of Poisson to unveil the fact that not all the conserved currents appearing in the literature for F(R) theory of gravity, satisfy the field equations. We also provide a list of available forms of F(R) along with associated conserved currents, and construct a generalized action, which might address the cosmic puzzle, elegantly.
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