Propagation estimates for regularity in Schrödinger equations with general time-dependent localized potentials are established directly in H^2.
Monotonic Local Decay Estimates
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abstract
For the Hamiltonian operator H = -{\Delta}+V(x) of the Schr\"odinger Equation with a repulsive potential, the problem of local decay is considered. It is analyzed by a direct method, based on a new, L^2 bounded, propagation observable. The resulting decay estimate, is in certain cases monotonic in time, with no "Quantum Corrections". This method is then applied to some examples in one and higher dimensions. In particular the case of the Wave Equation on a Schwarzschild manifold is redone: Local decay, stronger than the known ones are proved (minimal loss of angular derivatives and lower order of radial derivatives of initial data). The method developed here can be an alternative in some cases to the Morawetz type estimates, with L^2-multipliers replacing the first order operators. It provides an alternative to Mourre's method, by including thresholds and high energies.
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math.AP 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Propagation of Regularity for Schroedinger Equations with Time Dependent Potentials
Propagation estimates for regularity in Schrödinger equations with general time-dependent localized potentials are established directly in H^2.