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Landau-Zener tunnelling in 2D periodic structures in the presence of a gauge field: I. Tunnelling rates

JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS - impact factor: 2.031

Andrey R Kolovsky.  Landau–Zener tunnelling in 2D periodic structures in the presence of a gauge field: I. Tunnelling rates // JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS  Volume: 46 Issue: 14 Article Number: 145301

Abstract: We study the interband Landau–Zener tunnelling of a quantum particle in the Hall configuration, i.e., in the presence of gauge field (for example, magnetic field for a charged particle) and in-plane potential field (electric field for a charged particle) normal to the lattice plane. The interband tunnelling is induced by the potential field and for the vanishing gauge field is described by the common Landau–Zener theory. We generalize this theory for a nonzero gauge field. The depletion rates of low-energy bands are calculated by using a semi-analytical method of the truncated Floquet matrix.

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