Threshold singularities of the spectral shift function for geometric perturbations of magnetic Hamiltonians

Abstract

We consider the 3D Schr\"odinger operator H0 with constant magnetic field B of scalar intensity b>0, and its perturbations H+ (resp., H-) obtained by imposing Dirichlet (resp., Neumann) conditions on the boundary of the bounded domain in ⊂ R3. We introduce the Krein spectral shift functions (E;H,H0), E ≥ 0, for the operator pairs (H,H0), and study their singularities at the Landau levels q : = b(2q+1), q ∈ Z+, which play the role of thresholds in the spectrum of H0. We show that (E;H+,H0) remains bounded as E q, q ∈ Z+ being fixed, and obtain three asymptotic terms of (E;H-,H0) as E q, and of (E;H,H0) as E q. The first two terms are independent of the perturbation while the third one involves the logarithmic capacity of the projection of in onto the plane perpendicular to B.