The scaling of conductance in the Anderson model of localization in one dimension is a two-parameter scaling

Details The scaling of conductance in the Anderson model of localization in one dimension is a two-parameter scaling The scaling of conductance in the Anderson model of localization in one dimension is a two-parameter scaling

2003-07-23

arxiv.org/abs/cond-mat/0307572v1

Physics

Condensed Matter

Disordered Systems and Neural Networks

Scientific paper

The cumulants of the logarithm of the conductance (lng) in the localized regime in the one-dimensional Anderson model are calculated exactly in the second Born approximation for weak disorder. Only the first two cumulants turn out to ne non-zero since the third and fourth cumulants vanish identically and the higher cumulants are of higher order in the disorder. The variance and the mean of lng vary linearly with length $L$ while their ratio is proportional to the inverse localization length. The resulting exact log-normal distribution of conductance thus corresponds to a special form of two-parameter scaling. This contradicts the standard one-parameter scaling in the random phase approximation.

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