The statistics of equally weighted random paths (ideal polymer) is studied in two- and three dimensional percolating clusters. This is equivalent to diffusion in the presence of a trapping environment. The number of step walks, N, follows a logarithmic-normal distribution with a:variance growing asymptotically faster than the mean, which leads to a weak non-self-averaging behavior. Critical exponents associated with the scaling of the two-point correlation function do not obey standard scaling laws.
WEAK NON-SELF-AVERAGING BEHAVIOR FOR DIFFUSION IN A TRAPPING ENVIRONMENT
GIACOMETTI, Achille;
1994-01-01
Abstract
The statistics of equally weighted random paths (ideal polymer) is studied in two- and three dimensional percolating clusters. This is equivalent to diffusion in the presence of a trapping environment. The number of step walks, N, follows a logarithmic-normal distribution with a:variance growing asymptotically faster than the mean, which leads to a weak non-self-averaging behavior. Critical exponents associated with the scaling of the two-point correlation function do not obey standard scaling laws.
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