J. Heinrichs
Published 2003-07-23Version 1
We obtain for the first time the expressions for the mean and the variance of the transmission coefficient for an Anderson chain in the weak localization regime, using exact expansions of the complex transmission- and reflection coefficients to fourth order in the weakly disordered site energies. These results confirm the validity of single-parameter scaling theory in a domain where the higher transmission cumulants may be neglected. We compare our results with earlier results for transmission cumulants in the weak localization domain based on the phase randomization hypothesis.
Journal: J.Phys.:Condens. Matter 15 (2003) 6969-6975
Suppression of one-dimensional weak localization by band asymmetry
Transport, multifractality, and the breakdown of single-parameter scaling at the localization transition in quasiperiodic systems
Failure of single-parameter scaling of wave functions in Anderson localization
