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arXiv:2007.06447 (Published 2020-07-13)
Scattering theory for the Hodge-Laplacian
We prove using an integral criterion the existence and completeness of the wave operators $W_{\pm}(\Delta_h^{(p)}, \Delta_g^{(p)}, I_{g,h}^{(p)})$ corresponding to the Hodge-Laplacians $\Delta_\nu^{(p)}$ acting on differential $p$-forms, for $\nu\in\{g,h\}$, induced by two quasi-isometric Riemannian metrics $g$ and $h$ on an complete open smooth manifold $M$. In particular, this result provides a criterion for the absolutely continuous spectra $\sigma_{\mathrm{ac}}(\Delta_g^{(p)}) = \sigma_{\mathrm{ac}}(\Delta_h^{(p)})$ of $\Delta_\nu^{(p)}$ to coincide. The proof is based on gradient estimates obtained by probabilistic Bismut-type formulae for the heat semigroup defined by spectral calculus. By these localised formulae, the integral criterion only requires local curvature bounds and some upper local control on the heat kernel acting on functions, but no control on the injectivity radii. A consequence is a stability result of the absolutely continuous spectrum under a Ricci flow. As an application we concentrate on the important case of conformal perturbations.
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arXiv:math/0701271 (Published 2007-01-10)
Fluctuations of Levy processes and scattering theory
We establish a connection between the scattering inverse problem and the determination of the distribution of the position of the Levy process at the exit time of a bounded interval in term of its Levy exponent.