Distribution of conductance for Anderson insulators: A theory with a single parameter

We obtain an analytic expression for the full distribution of conductance for a strongly disordered two and three-dimensional conductor within a perturbative approach based on the transfer-matrix formulation. Our results confirm the numerical evidence that the log-normal limit of the distribution is not reached even in the deeply insulating regime. We show that the variance of the logarithm of the conductance scales as a fractional power of the mean, while the skewness changes sign as one approaches the Anderson metal-insulator transition from the deeply insulating limit, all described as a function of a single parameter. The approach suggests a possible single parameter description of the Anderson transition that takes into account the full nontrivial distribution of conductance.