Conformal correlation functions in the Brownian loop soup

Federico Camia; Alberto Gandolfi; Matthew Kleban

doi:10.1016/j.nuclphysb.2015.11.022

Conformal correlation functions in the Brownian loop soup

Federico Camia, Alberto Gandolfi, Matthew Kleban

Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

We define and study a set of operators that compute statistical properties of the Brownian loop soup, a conformally invariant gas of random Brownian loops (Brownian paths constrained to begin and end at the same point) in two dimensions. We prove that the correlation functions of these operators have many of the properties of conformal primaries in a conformal field theory, and compute their conformal dimension. The dimensions are real and positive, but have the novel feature that they vary continuously as a periodic function of a real parameter. We comment on the relation of the Brownian loop soup to the free field, and use this relation to establish that the central charge of the loop soup is twice its intensity.

Original language	English (US)
Pages (from-to)	483-507
Number of pages	25
Journal	Nuclear Physics B
Volume	902
DOIs	https://doi.org/10.1016/j.nuclphysb.2015.11.022
State	Published - Jan 1 2016

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1016/j.nuclphysb.2015.11.022

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title = "Conformal correlation functions in the Brownian loop soup",

abstract = "We define and study a set of operators that compute statistical properties of the Brownian loop soup, a conformally invariant gas of random Brownian loops (Brownian paths constrained to begin and end at the same point) in two dimensions. We prove that the correlation functions of these operators have many of the properties of conformal primaries in a conformal field theory, and compute their conformal dimension. The dimensions are real and positive, but have the novel feature that they vary continuously as a periodic function of a real parameter. We comment on the relation of the Brownian loop soup to the free field, and use this relation to establish that the central charge of the loop soup is twice its intensity.",

author = "Federico Camia and Alberto Gandolfi and Matthew Kleban",

note = "Funding Information: It is a pleasure to thank M. Bauer, D. Bernard, B. Duplantier, B. Freivogel, P. Kleban, G. Lawler, T. Lupu, Y. Le Jan, M. Lis, M. Porrati, A. Sokal, and S. Storace for discussions. The work of FC is supported in part by the Netherlands Organization for Scientific Research ( NWO ) through grant Vidi 639.032.916 . The work of MK is supported in part by the NSF through grant PHY-1214302 . Publisher Copyright: {\textcopyright} 2015 The Authors.",

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AU - Camia, Federico

AU - Gandolfi, Alberto

AU - Kleban, Matthew

N1 - Funding Information: It is a pleasure to thank M. Bauer, D. Bernard, B. Duplantier, B. Freivogel, P. Kleban, G. Lawler, T. Lupu, Y. Le Jan, M. Lis, M. Porrati, A. Sokal, and S. Storace for discussions. The work of FC is supported in part by the Netherlands Organization for Scientific Research ( NWO ) through grant Vidi 639.032.916 . The work of MK is supported in part by the NSF through grant PHY-1214302 . Publisher Copyright: © 2015 The Authors.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - We define and study a set of operators that compute statistical properties of the Brownian loop soup, a conformally invariant gas of random Brownian loops (Brownian paths constrained to begin and end at the same point) in two dimensions. We prove that the correlation functions of these operators have many of the properties of conformal primaries in a conformal field theory, and compute their conformal dimension. The dimensions are real and positive, but have the novel feature that they vary continuously as a periodic function of a real parameter. We comment on the relation of the Brownian loop soup to the free field, and use this relation to establish that the central charge of the loop soup is twice its intensity.

AB - We define and study a set of operators that compute statistical properties of the Brownian loop soup, a conformally invariant gas of random Brownian loops (Brownian paths constrained to begin and end at the same point) in two dimensions. We prove that the correlation functions of these operators have many of the properties of conformal primaries in a conformal field theory, and compute their conformal dimension. The dimensions are real and positive, but have the novel feature that they vary continuously as a periodic function of a real parameter. We comment on the relation of the Brownian loop soup to the free field, and use this relation to establish that the central charge of the loop soup is twice its intensity.

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EP - 507

JO - Nuclear Physics B

JF - Nuclear Physics B

ER -

Conformal correlation functions in the Brownian loop soup

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