A non-local way around the no-global-symmetries conjecture in quantum gravity?

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

Classical and Quantum Gravity Pub Date : 2025-01-13 DOI:10.1088/1361-6382/ada2d4

Johanna Borissova, Astrid Eichhorn and Shouryya Ray

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Abstract

The no-global-symmetries conjecture is central to the swampland program that delineates the boundary between effective field theories that can be obtained from a quantum theory of gravity to those that cannot. The conjecture states that virtual black-hole configurations in the path integral generate terms that violate all global symmetries in the effective action for matter. Because of its central role, it is crucial to understand limitations to the validity of this conjecture. In the context of the Lorentzian path integral over spacetime geometries, we explore whether virtual black-hole configurations can be suppressed dynamically. To that end, we work in a spherically symmetric setting and make use of horizon-detecting curvature invariants which vanish on the horizon. By constructing a non-local gravitational action from the inverse of such curvature invariants, we can achieve destructive interference of black-hole configurations in the path integral. Given that non-local gravitational actions appear generically as the result of integrating out matter degrees of freedom from a theory for quantum gravity and matter, our exemplary construction reinforces discussions about the role of non-locality in assessing arguably universal properties of quantum gravity within the framework of path integrals.

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量子引力中非全局对称猜想的非局域方法？

非全局对称猜想是沼泽地计划的核心，它描绘了从量子引力理论中可以获得的有效场论与那些不能获得的有效场论之间的边界。该猜想指出，路径积分中的虚黑洞构型会产生违反物质有效作用中所有全局对称性的项。由于它的核心作用，理解这一猜想有效性的局限性是至关重要的。在时空几何上的洛伦兹路径积分的背景下，我们探讨了虚拟黑洞组态是否可以被动态抑制。为此，我们在球对称的环境下工作，并利用在视界上消失的检测视界的曲率不变量。通过从曲率不变量的逆构造非局域引力作用，我们可以在路径积分中实现黑洞组态的相消干涉。鉴于非局域引力作用一般表现为从量子引力和物质理论中积分出物质自由度的结果，我们的示例结构加强了关于非局域性在路径积分框架内评估量子引力的普遍特性中的作用的讨论。

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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.