Hermiticity/factor-ordering duality in quantum black holes

IF 3.6 3区物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS

Classical and Quantum Gravity Pub Date : 2025-05-15 DOI:10.1088/1361-6382/add5b6

Harpreet Singh and Malay K Nandy

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引用次数: 0

Abstract

As the property of duality exists in various disciplines of physics since early times, it is important to look for the existence of this symmetry in the physics of black holes described by quantum gravity. While canonically quantizing gravity, it is well-known that ambiguity in operator ordering and the requirement of Hermiticity play their crucial roles in determining the wave function of the black hole interior. Consequently, it is important to look for how Hermiticity and operator ordering could be interrelated, presumably by means of some duality between the two. In order to study this feature in a concrete way, we consider in this paper two distinct Kantowski–Sachs minisuperspace models for the black hole interior. In the process of canonical quantization in the first model, we maintain Hermiticity in the ensuing Wheeler–DeWitt equation. On the other hand, in the second model, we do not impose Hermiticity, but consider a general operator ordering in the Wheeler–DeWitt equation. Despite these crucial differences in the two frameworks, we find that there exists an exact duality between the wave functions occurring as solutions of the Wheeler–DeWitt equations in the two scenarios, called herein Hermiticity/factor-ordering duality.

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量子黑洞中的厄米性/因子序对偶性

由于对偶性自早期以来就存在于物理学的各个学科中，因此在量子引力描述的黑洞物理学中寻找这种对称性的存在是很重要的。在对引力进行经典量子化时，众所周知，算子序的模糊性和厄米性的要求在确定黑洞内部的波函数中起着至关重要的作用。因此，寻找厄密性和算子序如何相互关联是很重要的，可能是通过两者之间的某种对偶性来实现的。为了具体地研究这一特征，本文考虑了黑洞内部的两个不同的Kantowski-Sachs小超空间模型。在第一个模型的正则量子化过程中，我们在随后的Wheeler-DeWitt方程中保持了厄米性。另一方面，在第二个模型中，我们不施加厄米性，而是考虑惠勒-德维特方程中的一般算子序。尽管在两个框架中存在这些关键的差异，我们发现在这两种情况下，作为惠勒-德维特方程的解的波函数之间存在着精确的对偶性，在这里称为厄米性/因子排序对偶性。

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

Classical and Quantum Gravity 物理-天文与天体物理

CiteScore

7.00

自引率

8.60%

发文量

301

审稿时长

2-4 weeks

期刊介绍： Classical and Quantum Gravity is an established journal for physicists, mathematicians and cosmologists in the fields of gravitation and the theory of spacetime. The journal is now the acknowledged world leader in classical relativity and all areas of quantum gravity.