Localization at large disorder and at extreme energies: An Elementary derivation
Sep 15, 199349 pages
Published in:
- Commun.Math.Phys. 157 (1993) 245-278
DOI:
Report number:
- PRINT-93-0654
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Abstract: (Springer)
The work presents a short proof of localization under the conditions of either strong disorder (λ > λ0) or extreme energies for a wide class of self adjoint operators with random matrix elements, acting inl2 spaces. A prototypical example is the discrete Schrödinger operatorH=−Δ+U0(x)+λVx onZd,d≧1, withU0(x) a specified background potential and {Vx} generated as random variables. The general results apply to operators with −Δ replaced by a non-local self adjoint operatorT whose matrix elements satisfy: ∑y|Tx,y|S≦Const., uniformly inx, for somes<1. Localization means here that within a specified energy range the spectrum ofH is of the pure-point type, or equivalently — the wave functions do not spread indefinitely under the unitary time evolution generated byH. The effect is produced by strong disorder in either the potential or in the off-diagonal matrix elementsTx, y. Under rapid decay ofTx, y, the corresponding eigenfunctions are also proven to decay exponentially. The method is based on resolvent techniques. The central technical ideas include the use of low moments of the resolvent kernel, i.e. <|GE(x, y)|s> withs small enough (<1) to avoid the divergence caused by the distribution's Cauchy tails, and an effective use of the simple form of the dependence ofGE(x, y) on the individual matrix elements ofH in elucidating the implications of the fundamental equation (H−E)GE(x,x0)=δx,x0. This approach simplifies previous derivations of localization results, avoiding the small denominator difficulties which have been hitherto encountered in the subject. It also yields some new results which include localization under the following sets of conditions: i) potentials with an inhomogeneous non-random partU0(x), ii) the Bethe lattice, iii) operators with very slow decay in the off-diagonal terms (Tx,y≈1/|x−y|(d+ε)), and iv) localization produced by disordered boundary conditions.References(0)
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