Non-Perturbative Renormalization Group Flows in Two-Dimensional Quantum   Gravity

Ray L. Renken; Simon M. Catterall; and John B. Kogut

arXiv:hep-lat/9408008·hep-lat·October 22, 2009

Non-Perturbative Renormalization Group Flows in Two-Dimensional Quantum Gravity

Ray L. Renken, Simon M. Catterall, and John B. Kogut

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TL;DR

This paper applies a block spin renormalization group method to study non-perturbative effects of higher derivative actions in two-dimensional quantum gravity within the dynamical triangulation framework.

Contribution

It introduces a non-perturbative analysis of higher derivative gravitational actions using a block spin RG approach in 2D quantum gravity.

Findings

01

Non-perturbative RG flows characterized for higher derivative actions

02

Insights into the phase structure of 2D quantum gravity models

03

Potential implications for quantum gravity theories

Abstract

Recently a block spin renormalization group approach was proposed for the dynamical triangulation formulation of two-dimensional quantum gravity. We use this approach to examine non-perturbatively a particular class of higher derivative actions for pure gravity.

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