Two-dimensional quantum gravity - A laboratory for fluctuating graphs and quenched connectivity disorder

Wolfhard Janke; D. A. Johnston; M. Weigel

Journal ArticleOPEN ACCESS

Two-dimensional quantum gravity - A laboratory for fluctuating graphs and quenched connectivity disorder

Janke W
Johnston D
Weigel M

Condensed Matter Physics (2006) 9(2) 263-282

DOI: 10.5488/CMP.9.2.263

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Abstract

This paper gives a brief introduction to using two-dimensional discrete and Euclidean quantum gravity approaches as a laboratory for studying the properties of fluctuating and frozen random graphs in interaction with "matter fields" represented by simple spin or vertex models. Due to the existence of numerous exact analytical results and predictions for comparison with simulational work, this is an interesting and useful enterprise. © W.Janke, D.A.Johnston, M.Weigel.

Author supplied keywords

Annealed and quenched disorder
Critical phenomena
Quantum gravity

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APA

Janke, W., Johnston, D. A., & Weigel, M. (2006). Two-dimensional quantum gravity - A laboratory for fluctuating graphs and quenched connectivity disorder. Condensed Matter Physics, 9(2), 263–282. https://doi.org/10.5488/CMP.9.2.263

Two-dimensional quantum gravity - A laboratory for fluctuating graphs and quenched connectivity disorder

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