SLE Boundary Visits |
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| Authors: | Niko Jokela Matti Järvinen Kalle Kytölä |
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| Institution: | 1.Departamento de Física de Partículas,Universidade de Santiago de Compostela,Santiago de Compostela,Spain;2.Department of Physics, Helsinki Institute of Physics,University of Helsinki,Helsinki,Finland;3.Department of Physics, Crete Center for Theoretical Physics,University of Crete,Heraklion,Greece;4.Laboratoire de Physique Théorique, Ecole Normale Supérieure,Institut de Physique Théorique Philippe Meyer,Paris,France;5.Department of Mathematics and Statistics,University of Helsinki,Helsinki,Finland;6.Department of Mathematics and Systems Analysis,Aalto University,Espoo,Finland |
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| Abstract: | We study the probabilities with which chordal Schramm–Loewner evolutions (SLE) visit small neighborhoods of boundary points. We find formulas for general chordal SLE boundary visiting probability amplitudes, also known as SLE boundary zig-zags or order refined SLE multi-point Green’s functions on the boundary. Remarkably, an exact answer can be found to this important SLE question for an arbitrarily large number of marked points. The main technique employed is a spin chain–Coulomb gas correspondence between tensor product representations of a quantum group and functions given by Dotsenko–Fateev type integrals. We show how to express these integral formulas in terms of regularized real integrals, and we discuss their numerical evaluation. The results are universal in the sense that apart from an overall multiplicative constant the same formula gives the amplitude for many different formulations of the SLE boundary visit problem. The formula also applies to renormalized boundary visit probabilities for interfaces in critical lattice models of statistical mechanics: we compare the results with numerical simulations of percolation, loop-erased random walk, and Fortuin–Kasteleyn random cluster models at Q = 2 and Q = 3, and find good agreement. |
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