J. Ricardo G. Mendonça
Published 2012-07-17, updated 2013-06-28Version 4
We show that the infinitesimal generator of the symmetric simple exclusion process, recast as a quantum spin-1/2 ferromagnetic Heisenberg model, can be solved by elementary techniques on the complete, complete bipartite, and related multipartite graphs. Some of the resulting infinitesimal generators are formally identical to homogeneous as well as mixed higher spins models. The degeneracies of the eigenspectra are described in detail, and the Clebsch-Gordan machinery needed to deal with arbitrary spin-s representations of the SU(2) is briefly developed. We mention in passing how our results fit within the related questions of a ferromagnetic ordering of energy levels and a conjecture according to which the spectral gaps of the random walk and the interchange process on finite simple graphs must be equal.
Comments: Final version as published, 19 pages, 4 figures, 40 references given in full format
Journal: J. Phys. A: Math. Theor. 46 (2013) 295001 (13pp)
Large deviations of current for the symmetric simple exclusion process on a semi-infinite line and on an infinite line with slow bonds
Large Deviations in the Symmetric Simple Exclusion Process with Slow Boundaries: A Hydrodynamic Approach
Unexpected Effects of Disorder on Current Fluctuations in the Symmetric Simple Exclusion Process
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