Shu Nakamura
Published 2014-07-31Version 1
We consider scattering theory for a pair of operators $H_0$ and $H=H_0+V$ on $L^2(M,m)$, where $M$ is a Riemannian manifold, $H_0$ is a multiplication operator on $M$ and $V$ is a pseudodifferential operator of order $-\mu$, $\mu>1$. We show that a time-dependent scattering theory can be constructed, and the scattering matrix is a pseudodifferential operator on each energy surface. Moreover, the principal symbol of the scattering matrix is given by a Born approximation type function. The main motivation of the study comes from applications to discrete Schr\"odigner operators, but it also applies to various differential operators with constant coefficients and short-range perturbations on Euclidean spaces.
Microlocal properties of scattering matrices for Schrödinger equations on scattering manifolds
Resolvent and scattering matrix at the maximum of the potential
Resolvents, Poisson operators and scattering matrices on asymptotically hyperbolic and de Sitter spaces
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