Lifschitz Tails for Random Schr\"odinger Operator in Bernoulli Distributed Potentials
Abstract
This paper presents an elementary proof of Lifschitz tail behavior for random discrete Schr\"odinger operators with a Bernoulli-distributed potential. The proof approximates the low eigenvalues by eigenvalues of sine waves supported where the potential takes its lower value. This is motivated by the idea that the eigenvectors associated to the low eigenvalues react to the jump in the values of the potential as if the gap were infinite.
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