从维度正规化看量子引力的定点

arXiv - PHYS - High Energy Physics - Theory Pub Date : 2024-09-14 DOI:arxiv-2409.09252

Yannick Kluth

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引用次数: 0

摘要

我们利用维度正则化研究量子引力的 $\beta$ 函数。与最小减法相反，我们采用了一种非最小正则化方案，它对来自质量项或维度耦合的幂律发散很敏感。通过构造，这种设置尊重全局对称性和规对称性，包括差分对称性，并允许系统扩展到更高的环阶。我们以四维量子引力为例说明这种方法。通过计算一环（one-loop）$\beta$函数，我们发现了一个非难定点。它显示了两个实临界指数，并与温伯格的渐近安全假设相兼容。此外，发散的基本结构表明，引力在紫外实际上变成了二维引力。我们讨论了我们结果的意义以及进一步的应用和向更高环阶的扩展。

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Fixed Points of Quantum Gravity from Dimensional Regularisation

We investigate $\beta$-functions of quantum gravity using dimensional regularisation. In contrast to minimal subtraction, a non-minimal renormalisation scheme is employed which is sensitive to power-law divergences from mass terms or dimensionful couplings. By construction, this setup respects global and gauge symmetries, including diffeomorphisms, and allows for systematic extensions to higher loop orders. We exemplify this approach in the context of four-dimensional quantum gravity. By computing one-loop $\beta$-functions, we find a non-trivial fixed point. It shows two real critical exponents and is compatible with Weinberg's asymptotic safety scenario. Moreover, the underlying structure of divergences suggests that gravity becomes, effectively, two-dimensional in the ultraviolet. We discuss the significance of our results as well as further applications and extensions to higher loop orders.

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arXiv - PHYS - High Energy Physics - Theory

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