中文

Anomalous heat-kernel decay for random walk among bounded random conductances

概率论 2009-04-26 v4 离散数学 数学物理 math.MP

摘要

We consider the nearest-neighbor simple random walk on Zd\Z^d, d2d\ge2, driven by a field of bounded random conductances ωxy[0,1]\omega_{xy}\in[0,1]. The conductance law is i.i.d. subject to the condition that the probability of ωxy>0\omega_{xy}>0 exceeds the threshold for bond percolation on Zd\Z^d. For environments in which the origin is connected to infinity by bonds with positive conductances, we study the decay of the 2n2n-step return probability Pω2n(0,0)P_\omega^{2n}(0,0). We prove that Pω2n(0,0)P_\omega^{2n}(0,0) is bounded by a random constant times nd/2n^{-d/2} in d=2,3d=2,3, while it is o(n2)o(n^{-2}) in d5d\ge5 and O(n2logn)O(n^{-2}\log n) in d=4d=4. By producing examples with anomalous heat-kernel decay approaching 1/n21/n^2 we prove that the o(n2)o(n^{-2}) bound in d5d\ge5 is the best possible. We also construct natural nn-dependent environments that exhibit the extra logn\log n factor in d=4d=4. See also math.PR/0701248.

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引用

@article{arxiv.math/0611666,
  title  = {Anomalous heat-kernel decay for random walk among bounded random conductances},
  author = {Noam Berger and Marek Biskup and Christopher E. Hoffman and Gady Kozma},
  journal= {arXiv preprint arXiv:math/0611666},
  year   = {2009}
}

备注

22 pages. Includes a self-contained proof of isoperimetric inequality for supercritical percolation clusters. Version to appear in AIHP + additional corrections