Riemann Tensor Correlator in de Sitter

Semiclassical and Stochastic Gravity Pub Date : 2020-03-01 DOI:10.1017/9780511667497.023

B. Hu, E. Verdaguer

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Abstract

In this chapter the linearized Riemann tensor correlator on a de Sitter background including one-loop corrections from conformal fields is derived. The Riemann tensor correlation function exhibits interesting features: it is gauge-invariant even when including contributions from loops of matter fields, but excluding graviton loops as it is implemented in the 1/N expansion, it is compatible with de Sitter invariance, and provides a complete characterization of the local geometry. The two-point correlator function of the Riemann tensor is computed by taking suitable derivatives of the metric correlator function found in the previous chapter, and the result is written in a manifestly de Sitter-invariant form. Moreover, given the decomposition of the Riemann tensor in terms of Weyl and Ricci tensors, we write the explicit results for the Weyl and Ricci tensors correlators as well as the Weyl–Ricci tensors correlator and study both their subhorizon and superhorizon behavior. These results are extended to general conformal field theories. We also derive the Riemann tensor correlator in Minkowski spacetime in a manifestly Lorentz-invariant form by carefully taking the flat-space limit of our result in de Sitter.

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德西特的黎曼张量相关器

在本章中，推导了包含共形场单环校正的德西特背景上的线性化黎曼张量相关器。黎曼张量相关函数表现出有趣的特征:即使包括物质场环路的贡献，它也是规范不变的，但在1/N展开中实现时，它不包括引力子环路，它与德西特不变性兼容，并提供了局部几何的完整表征。黎曼张量的两点相关函数是通过对上一章中发现的度量相关函数取适当的导数来计算的，结果以明显的德西特不变形式写成。此外，给定黎曼张量在Weyl和Ricci张量中的分解，我们写出了Weyl和Ricci张量相关器以及Weyl - Ricci张量相关器的显式结果，并研究了它们的亚视界和超视界行为。这些结果推广到一般的共形场理论。我们还通过仔细地取我们在德西特的结果的平面空间极限，以明显的洛伦兹不变形式导出了闵可夫斯基时空中的黎曼张量相关器。

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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Semiclassical and Stochastic Gravity

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