Hernández-García, E.; Cáceres, M. O.
Physical Review A 42, 4503 (1990)
A method is presented for the study of first-passage-time statistics in one-dimensional disordered media. We introduce a projection-operator formalism that allows the calculation of an averaged backwards master equation. A generalized Dynkin's equation is also presented. We apply this approach to the random-trap model. The exact mean first-passage time to leave a finite domain is calculated for weak disorder. To study strong disorder we introduce a mean-field-like approximation that gives exact results at long times. Long-time tails in the survival probability and in the first-passage-time distribution are found, predicting a divergent mean first-passage time for the case of strong disorder. Our findings confirm numerical results found previously.
DOI | 10.1103/PhysRevA.42.4503 |
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Fitxers | PRA_MFPTlong.pdf (1275572 Bytes) |
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