Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5495777 | Annals of Physics | 2017 | 17 Pages |
Abstract
We study the entanglement entropy and particle number cumulants for a system of disordered noninteracting fermions in d dimensions. We show, both analytically and numerically, that for a weak disorder the entanglement entropy and the second cumulant (particle number variance) are proportional to each other with a universal coefficient. The corresponding expressions are analogous to those in the clean case but with a logarithmic factor regularized by the mean free path rather than by the system size. We also determine the scaling of higher cumulants by analytical (weak disorder) and numerical means. Finally, we predict that the particle number variance and the entanglement entropy are nonanalytic functions of disorder at the Anderson transition.
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Physical Sciences and Engineering
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Authors
I.S. Burmistrov, K.S. Tikhonov, I.V. Gornyi, A.D. Mirlin,