On the semiclassical Laplacian with magnetic field having self-intersecting zero set
Provides theoretical insights for spectral analysis in quantum mechanics with magnetic fields having zero sets that self-intersect.
The paper analyzes the 2D magnetic Laplacian with a magnetic field vanishing along a self-intersecting curve, showing that crossing points create potential wells leading to eigenvalue decay of order h^{3/2} and exponential eigenvector concentration.
This paper is devoted to the spectral analysis of the Neumann realization of the 2D magnetic Laplacian with semiclassical parameter h > 0 in the case when the magnetic field vanishes along a smooth curve which crosses itself inside a bounded domain. We investigate the behavior of its eigenpairs in the limit h $\rightarrow$ 0. We show that each crossing point acts as a potential well, generating a new decay scale of h 3/2 for the lowest eigenvalues, as well as exponential concentration for eigenvectors around the set of crossing points. These properties are consequences of the nature of associated model problems in R 2 for which the zero set of the magnetic field is the union of two straight lines. In this paper we also analyze the spectrum of model problems when the angle between the two straight lines tends to 0.