Astrophysical and cosmological signatures of Loop Quantum Gravity

A. Barrau
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引用次数: 6

Abstract

The loop quantum gravity theory is a background-independent and non-perturbative quantization of general relativity. It has been developed both in the canonical and covariant formalisms. As for all tentative theories of quantum gravity, one of the key question is to produce clear experimental or observational predictions. As the discrete nature of spacetime at the Planck scale is extremely difficult to probe directly, phenomenological attempts do focus mostly on the cosmological sector, on black holes and on possible high energy astrophysics effects. The main prediction of loop quantum gravity in the cosmological sector is that the Big Bang is replaced by a Big Bounce: a contracting phase should have taken place before the expanding phase we are now living in. In the black hole sector, the Hawking evaporation spectrum should receive substantial corrections and the very existence of an event horizon can be questioned, potentially leading to black holes bouncing into white holes. Finally, on the astroparticle physics side, the quantum discreteness of spacetime could lead to interesting effects for high energy cosmic rays.
环量子引力的天体物理和宇宙学特征
环量子引力理论是广义相对论的背景无关和非摄动量子化。它在正则和协变形式中都得到了发展。对于所有关于量子引力的试探性理论,关键问题之一是产生清晰的实验或观测预测。由于普朗克尺度下时空的离散性极难直接探测,现象学的尝试主要集中在宇宙学领域、黑洞和可能的高能天体物理效应上。在宇宙学领域,圈量子引力的主要预测是,大爆炸将被大反弹所取代:在我们现在所处的膨胀阶段之前,应该已经发生了收缩阶段。在黑洞领域,霍金蒸发谱应该得到实质性的修正,事件视界的存在可能会受到质疑,这可能会导致黑洞弹回白洞。最后,在天体粒子物理学方面,时空的量子离散性可能会对高能宇宙射线产生有趣的影响。
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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