G. Hernandez-Duenas, S. Pérez-Esteva, A. Uribe, C. Villegas-Blas
Published 2019-11-20Version 1
We consider the asymptotic behavior of the spectrum of the Landau Hamiltonian plus a rapidly decaying potential, as the magnetic field strength, $B$, tends to infinity. After a suitable rescaling, this becomes a semiclassical problem where the role of Planck's constant is played by $1/B$. The spectrum of the operator forms eigenvalue clusters. We obtain a Szeg\H{o} limit theorem for the eigenvalues in the clusters as a suitable cluster index and $B$ tend to infinity with a fixed ratio $\calE$. The answer involves the averages of the potential over circles of radius $\sqrt{\calE/2}$ (circular Radon transform). We also discuss related inverse spectral results.
Comments: 24 pages, 1 figure
About a result of S.M. Kozlov
Stability of gas measures under perturbations and discretizations
Perturbations of eigenvalues embedded at threshold: one, two and three dimensional solvable models
![QR code for arXiv:1911.08989 [math-ph]](http://oss.arxitics.com/images/favicon.svg)