Weak-convergence methods for Hamiltonian multiscale problems

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528717928.pdf (469.65 KB)

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2007

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1219

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WIAS Preprints

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Berlin : Weierstraß-Institut für Angewandte Analysis und Stochastik

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Abstract

We consider Hamiltonian problems depending on a small parameter like in wave equations with rapidly oscillating coefficients or the embedding of an infinite atomic chain into a continuum by letting the atomic distance tend to 0. For general semilinear Hamiltonian systems we provide abstract convergence results in terms of the existence of a family of joint recovery operators which guarantee that the effective equation is obtained by taking the Gamma-limit of the Hamiltonian. The convergence is in the weak sense with respect to the energy norm. Exploiting the well-developed theory of Gamma-convergence, we are able to generalize the admissible coefficients for homogenization in the wave equations. Moreover, we treat the passage from a discrete oscillator chain to a wave equation with general rmLinfty coefficients

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Keywords GND

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Report

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publishedVersion

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https://doi.org/10.34657/3460
 https://oa.tib.eu/renate/handle/123456789/1862

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Mathematik
WIAS Preprints

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