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Hill’s equation for a homogeneous tree. (English) Zbl 0890.34066

Summary: The analysis of Hill’s operator \(-D^2+q(x)\) for \(q\) even and periodic is extended from the real line to homogeneous trees \(\mathcal T\). Generalizing the classical problem, a detailed analysis of Hill’s equation and its related operator theory on \(L^2(\mathcal T)\) is provided. The multipliers for this new version of Hill’s equation are identified and analyzed. An explicit description of the resolvent is given. The spectrum is exactly described when the degree of the tree is greater than two, in which case there are both spectral bands and eigenvalues. Spectral projections are computed by means of an eigenfunction expansion. Long time asymptotic expansions for the associated semigroup kernel are also described. A summation formula expresses the resolvent for a regular graph as a function of the resolvent of its covering homogeneous tree and the covering map. In the case of a finite regular graph, a trace formula relates the spectrum of the Hill’s operator to the lengths of closed paths in the graph.

MSC:

34L40 Particular ordinary differential operators (Dirac, one-dimensional Schrödinger, etc.)
34L10 Eigenfunctions, eigenfunction expansions, completeness of eigenfunctions of ordinary differential operators
34B30 Special ordinary differential equations (Mathieu, Hill, Bessel, etc.)
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