arXiv:1110.2395 Abstract | arXiv Analytics

arXiv:1110.2395 [math.PR]Abstract References Reviews Resources

Three theorems in discrete random geometry

Published 2011-10-11, updated 2012-01-27Version 2

These notes are focused on three recent results in discrete random geometry, namely: the proof by Duminil-Copin and Smirnov that the connective constant of the hexagonal lattice is \sqrt{2+\sqrt 2}; the proof by the author and Manolescu of the universality of inhomogeneous bond percolation on the square, triangular, and hexagonal lattices; the proof by Beffara and Duminil-Copin that the critical point of the random-cluster model on Z^2 is \sqrt q/(1+\sqrt q). Background information on the relevant random processes is presented on route to these theorems. The emphasis is upon the communication of ideas and connections as well as upon the detailed proofs.

Comments: Error fixed in v2

Categories: math.PR, math-ph, math.MP

Subjects: 60K35, 82B43

Keywords: discrete random geometry, hexagonal lattice, relevant random processes, duminil-copin, background information

Related articles: Most relevant | Search more

arXiv:2101.11894 [math.PR] (Published 2021-01-28)

Metastability for the Ising model on the hexagonal lattice

Valentina Apollonio, Vanessa Jacquier, Francesca Romana Nardi, Alessio Troiani

arXiv:math/0111170 [math.PR] (Published 2001-11-14)

Approach to Fixation for Zero-Temperature Stochastic Ising Models on the Hexagonal Lattice

Federico Camia, Charles M. Newman, Vladas Sidoravicius

arXiv:1507.04109 [math.PR] (Published 2015-07-15)