Anderson Orthogonality Catastrophe in Disordered Systems
Abstract
We study the Anderson orthogonality catastrophe (AOC) in finite conductors with diffusive disorder. The disorder averaged logarithm of , the overlap between the ground states before and after adding a static impurity, is found to depend nonmonotonically on the disorder. In two dimensions <-1> 2 N in the weak disorder limit, thus showing a stronger dependence on the number of electrons N than in the canonical AOC. A very broad tail of the distribution of , found numerically, is a signature of the importance of a few-level statistics at the Fermi energy.
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