Dgsos on DTRS

C.F. Baillie; W. Janke; D.A. Johnston

arXiv:hep-lat/9308017·hep-lat·June 25, 2015

Dgsos on DTRS

C.F. Baillie, W. Janke, D.A. Johnston

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TL;DR

This paper simulates a discrete Gaussian solid on solid model on dynamical $\

Contribution

It introduces a simulation of the DGSOS model on dynamical graphs using advanced cluster algorithms, exploring quantum gravity coupling effects.

Findings

01

Evidence of KT-like behaviour in the rough phase

02

Analysis of cluster statistics and critical exponents

03

Comparison with dual XY model results

Abstract

We perform simulations of a discrete gaussian solid on solid (DGSOS) model on dynamical $ϕ^{3}$ graphs, which is equivalent to coupling the model to 2d quantum gravity, using the cluster algorithms recently developed by Evertz et.al.for use on fixed lattices. We find evidence from the growth of the width-squared in the rough phase of KT-like behaviour, which is consistent with theoretical expectations. We also investigate the cluster statistics, dynamical critical exponent and lattice properties, and compare these with the dual XY model.

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