Ground State Energy of the One-Dimensional Discrete Random Schrödinger Operator with Bernoulli Potential

Details Ground State Energy of the One-Dimensional Discrete Random Schrödinger Operator with Bernoulli Potential Ground State Energy of the One-Dimensional Discrete Random Schrödinger Operator with Bernoulli Potential

2011-09-19

arxiv.org/abs/1109.4109v3

Physics

Mathematical Physics

Scientific paper

In this paper, we show the that the ground state energy of the one dimensional Discrete Random Schroedinger Operator with Bernoulli Potential is controlled asymptotically as the system size N goes to infinity by the random variable \ell_N, the length the longest consecutive sequence of sites on the lattice with potential equal to zero. Specifically, we will show that for almost every realization of the potential the ground state energy behaves asymptotically as $\frac{\pi^2}{\ell_N+1)^2}$ in the sense that the ratio of the quantities goes to one.

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