论文信息 - Existence of a phase transition of the interchange process on the Hamming graph

Existence of a phase transition of the interchange process on the Hamming graph

The interchange process on a finite graph is obtained by placing a particle on each vertex of the graph, then at rate 1, selecting an edge uniformly at random and swapping the two particles at either end of this edge. In this paper we develop new techniques to show the existence of a phase transition of the interchange process on the 2-dimensional Hamming graph. We show that in the subcritical phase, all of the cycles of the process have length $O(\log n)$, whereas in the supercritical phase a positive density of vertices lie in cycles of length at least $n^{2-\varepsilon}$ for any $\varepsilon>0$.

Piotr Milos | Bati Sengul | Piotr Milos | Bati Sengul

[1] A. Hammond. Infinite cycles in the random stirring model on trees , 2012, 1202.1319.

[2] Piotr Milo's,et al. The random interchange process on the hypercube , 2015, 1509.02067.

[3] J. Björnberg. Large cycles in random permutations related to the Heisenberg model , 2015 .

[4] Rick Durrett,et al. Random Graph Dynamics (Cambridge Series in Statistical and Probabilistic Mathematics) , 2006 .

[5] N. Berestycki,et al. Cycle structure of the interchange process and representation theory , 2012, 1205.4753.

[6] R. Peled,et al. On the Cycle Structure of Mallows Permutations , 2016, 1601.06991.

[7] N. Berestycki. Emergence of Giant Cycles and Slowdown Transition in Random Transpositions and k-Cycles , 2010, 1004.3530.

[8] R. Durrett. Random Graph Dynamics: References , 2006 .

[9] O. Schramm. Compositions of Random Transpositions , 2004, math/0404356.

[10] János Komlós,et al. Largest random component of ak-cube , 1982, Comb..

[11] B. Tóth. Improved lower bound on the thermodynamic pressure of the spin 1/2 Heisenberg ferromagnet , 1993 .

[12] A. Hammond. Sharp phase transition in the random stirring model on trees , 2012, 1202.1322.

[13] Omer Angel,et al. Random Infinite Permutations and the Cyclic Time Random Walk , 2003, DRW.