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Keyword: Quantum Dimer (1)	30 Mar 2025	Run
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articleNo Access
SELF-TRAPPING IN AN ASYMMETRIC TWO-SITE HOLSTEIN MODEL
- C. A. BUSTAMANTE and
- M. I. MOLINA
International Journal of Modern Physics B30 Apr 2003
Preview Abstract
We examine numerically the long-time average probability in a two-site system, for finding an electron staying at an initially occupied site for an asymmetric quantum Holstein electron-phonon coupled model. The principal finding is the existence of quantum-mechanical resonant tunnelling channels in the electron localization phenomenon. Based on a strong-coupling perturbative analysis, we have explained the presence of the channels as a consequence of a general resonant effect on an effective two-level system. Finally, a comparison of the quantum problem with the semiclassical description given by the Discrete Nonlinear Schrödinger equation is performed.

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