Non-linear equation of motion for higher curvature semiclassical gravity

IF 4.3 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Physics Letters B Pub Date : 2025-02-01 DOI:10.1016/j.physletb.2025.139264

Naman Kumar

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引用次数: 0

Abstract

We derive the non-linear semiclassical equation of motion for a general diffeomorphism-invariant theory of gravity by leveraging the thermodynamic properties of closed causal horizons. Our work employs two complementary approaches. The first approach utilizes perturbative quantum gravity applied to a Rindler horizon. The result is then mapped to a stretched light cone, which can be understood as a union of Rindler planes. Here, we adopt the semiclassical physical process formulation, encapsulated by

〈 Q 〉 = T δ S_{g e n}

where the heat-flux

〈 Q 〉

is related to the expectation value of stress-energy tensor

T_{a b}

and

S_{g e n}

is the generalized entropy. The second approach introduces a “higher curvature” Raychaudhuri equation, where the vanishing of the quantum expansion Θ pointwise as required by restricted quantum focusing establishes an equilibrium condition,

δ S_{gen} = 0

, at the null boundary of a causal diamond. While previous studies have only derived the linearized semiclassical equation of motion for higher curvature gravity, our work resolves this limitation by providing a fully non-linear formulation without invoking holography.

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高曲率半经典重力的非线性运动方程

利用闭因果视界的热力学性质，导出了广义微分纯不变引力理论的非线性半经典运动方程。我们的工作采用了两种互补的方法。第一种方法利用微扰量子引力作用于伦德勒视界。然后将结果映射到一个拉伸的光锥，它可以被理解为伦德勒平面的并集。这里我们采用半经典物理过程公式，封装为< Q > =TδSgen，其中热流< Q >与应力-能量张量Tab的期望值有关，Sgen为广义熵。第二种方法引入了“更高曲率”Raychaudhuri方程，其中量子膨胀Θ点向的消失是受限量子聚焦所要求的，在因果金刚石的零边界处建立了一个平衡条件δSgen=0。虽然以前的研究只导出了高曲率重力的线性化半经典运动方程，但我们的工作通过提供一个完全非线性的公式而不调用全息法来解决这一限制。

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

Physics Letters B 物理-物理：综合

CiteScore

9.10

自引率

6.80%

发文量

647

审稿时长

3 months

期刊介绍： Physics Letters B ensures the rapid publication of important new results in particle physics, nuclear physics and cosmology. Specialized editors are responsible for contributions in experimental nuclear physics, theoretical nuclear physics, experimental high-energy physics, theoretical high-energy physics, and astrophysics.