Leading Logarithm Quantum Gravity

S. P. Miao, N. C. Tsamis, R. P. Woodard
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Abstract

The continual production of long wavelength gravitons during primordial inflation endows graviton loop corrections with secular growth factors. During a prolonged period of inflation these factors eventually overwhelm the small loop-counting parameter of $G H^2$, causing perturbation theory to break down. A technique was recently developed for summing the leading secular effects at each order in non-linear sigma models, which possess the same kind of derivative interactions as gravity. This technique combines a variant of Starobinsky's stochastic formalism with a variant of the renormalization group. We generalize the new technique to quantum gravity, resulting in a Langevin equation in which secular changes in gravitational phenomena are driven by stochastic fluctuations of the graviton field.
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领先对数量子引力
在原始膨胀过程中长波长引力子的持续产生赋予引力子环路修正以世俗增长因子。在长期的膨胀过程中,这些因素最终会压倒$G H^2$的小环计数参数,导致扰动理论崩溃。最近开发了一种技术,用于求和非线性西格玛模型中每阶的主要世俗效应,这些模型具有与引力相同的衍生相互作用。我们将这种新技术推广到量子引力中,得到了一个朗格方程,在这个方程中,引力现象的世俗变化是由引力子场的随机波动驱动的。
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