Orthogonal localized wave functions of an electron in a magnetic field

Abstract

We prove the existence of a set of two-scale magnetic Wannier orbitals wm,n(r) on the infinite plane. The quantum numbers of these states are the positions m,n of their centers which form a von Neumann lattice. Function w00localized at the origin has a nearly Gaussian shape of exp(-r2/4l2)/sqrt(2Pi) for r < sqrt(2Pi)l,where l is the magnetic length. This region makes a dominating contribution to the normalization integral. Outside this region function, w00(r) is small, oscillates, and falls off with the Thouless critical exponent for magnetic orbitals, r(-2). These functions form a convenient basis for many electron problems.

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