Open AccessSpectral theory of damped quantum chaotic systems
Author(s) -
Stéphane nenmacher
Publication year - 2012
Publication title -
journées équations aux dérivées partielles
Language(s) - English
Resource type - Journals
eISSN - 2118-9366
pISSN - 0752-0360
DOI - 10.5802/jedp.81
Subject(s) - geodesic , curvature , mathematical analysis , metric (unit) , manifold (fluid mechanics) , spectral gap , flow (mathematics) , mathematics , riemannian manifold , chaotic , distribution (mathematics) , spectrum (functional analysis) , physics , classical mechanics , quantum mechanics , geometry , mechanical engineering , operations management , artificial intelligence , computer science , engineering , economics
We investigate the spectral distribution of the damped wave equation on a compact Riemannian manifold, especially in the case of a metric of negative curvature, for which the geodesic flow is Anosov. The main application is to obtain conditions (in terms of the geodesic flow on $X$ and the damping function) for which the energy of the waves decays exponentially fast, at least for smooth enough initial data. We review various estimates for the high frequency spectrum in terms of dynamically defined quantities, like the value distribution of the time-averaged damping. We also present a new condition for a spectral gap, depending on the set of minimally damped trajectories.
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