有效环量子宇宙学中的反常自由:教学总结和广义整体性修正

Maxime De Sousa, Aurélien Barrau, Killian Martineau
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摘要

一致性问题在量子引力中至关重要。最近,人们对有效对称性还原模型的一致性问题进行了深入研究。在这篇文章中,我们详尽地研究了具有广义整体性修正的有效环量子宇宙学的反常自由度,考虑了在微扰阶上对约束的环修正。我们从教学角度解释了为什么尽管应用于约束条件背景部分的全局校正(包括所选方案的细节)是至关重要的,但当应用于微扰展开时,它就变得无关紧要了,因为所有后果都被 "吸收 "到用于正则化的反项中了。本文认为,尽管强制执行一流代数是一个强有力的要求,但这可以通过几种不同的方式来实现,而这些方式往往被忽视了,这就对广义整体性修正形式的限制产生了歧义。我们对这些模糊性进行了详细研究,从而得出结论:宇宙学扰动有效理论的一致性,特别是在考虑标量模式时,没有反条件是无法实现的。我们还利用这项工作的机会,尽可能明确了所有必要的步骤,以便未来的工作有一个清晰的材料可以利用。特别是,我们提供了所有括号的详细计算,强调了确保代数闭合所需的(通常是隐含的)假设、假说和操作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Anomaly freedom in effective Loop Quantum Cosmology: pedagogical summary and generalized holonomy corrections
The issue of consistency is crucial in quantum gravity. It has recently been intensively addressed for effective symmetry-reduced models. In this article, we exhaustively study the anomaly freedom of effective loop quantum cosmology with generalized holonomy corrections, considering loop correction of the constraints at the perturbative order. We pedagogically explain why, although the holonomy correction -- including the details of the chosen scheme -- applied on the background part of the constraints is crucial, it becomes irrelevant when implemented on perturbative expansions, in the sense that all consequences are "absorbed" in the counter-terms used for the regularization. The possibility of closing the algebra of constraints without counter-terms is also studied. It is argued that, although enforcing a first-class algebra is a strong requirement, this can be achieved in several different ways, often overlooked, which generates ambiguities on the restriction of the form of the generalized holonomy correction. Those ambiguities are examined in details, leading to the conclusion that the consistency of the effective theory for cosmological perturbations, especially when considering scalar modes, cannot be achieved without counter-terms. We also take the opportunity of this work to clarify, as much as possible, all the required steps so that future works have a clear material at disposal. In particular, a highly detailed calculation of all the brackets is provided, emphasizing the (usually implicit) assumptions, hypotheses and manipulations required to ensure the closure of the algebra. Prospects for future works are underlined.
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