On the measure of spectra for discrete Schr\"odinger operators on periodic graphs

Abstract

We consider discrete Schr\"odinger operators Hμ Q=+μ Q with real periodic potentials Q on periodic graphs, where is the adjacency operator and μ∈ R is a coupling constant. The spectra of the operators consist of a finite number of closed intervals (bands). In the large coupling regime, we obtain an asymptotic upper bound for the measure of the spectrum of Hμ Q which depends essentially on a "degeneracy degree" of the potential Q. This result extends the result of Y. Last obtained for the one-dimensional lattice Z to the case of general periodic graphs. It also may serve as a certain quantitative complement to the recent criterion of J. Fillman for the measure of the spectrum of Hμ Q to go to zero as μ∞.

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