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RESONANCES AND SPECTRAL SHIFT FUNCTION FOR THE SEMI-CLASSICAL DIRAC OPERATOR

ABDALLAH KHOCHMAN

Institut de Mathématiques, Université Bordeaux I, 351, Cours de la Libération, 33405 Talence, France

https://doi.org/10.1142/S0129055X0700319XCited by:6 (Source: Crossref)

Abstract

We consider the selfadjoint operator H = H₀ + V, where H₀ is the free semi-classical Dirac operator on ℝ³. We suppose that the smooth matrix-valued potential V = O(〈x〉^-δ), δ > 0, has an analytic continuation in a complex sector outside a compact. We define the resonances as the eigenvalues of the non-selfadjoint operator obtained from the Dirac operator H by complex distortions of ℝ³. We establish an upper bound O(h^-3) for the number of resonances in any compact domain. For δ > 3, a representation of the derivative of the spectral shift function ξ(λ,h) related to the semi-classical resonances of H and a local trace formula are obtained. In particular, if V is an electro-magnetic potential, we deduce a Weyl-type asymptotics of the spectral shift function. As a by-product, we obtain an upper bound O(h^-2) for the number of resonances close to non-critical energy levels in domains of width h and a Breit–Wigner approximation formula for the derivative of the spectral shift function.

Keywords:

AMSC: 35B34, 35P05, 34L40, 81Q20, 81Q10

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