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3 - Global Attraction to Stationary Orbits

Published online by Cambridge University Press:  17 September 2021

Alexander Komech  and
Elena Kopylova
Alexander Komech
Affiliation:
Universität Wien, Austria
Elena Kopylova
Affiliation:
Universität Wien, Austria
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Summary

In this chapter we present in detail the first resultsonglobal attractionto stationary orbits obtained for a 1D Klein--Gordon equationcoupled to a nonlinear oscillator. The proofs rely on the concept of the omega-limit trajectory and a nonlinear analog of the Kato theorem on the absence of embedded eigenvalues, and on new theory of multipliers in the space of quasimeasures and a novel application of the Titchmarsh convolution theorem. Besides the formal proof, we give an informal explanation of the nonlinear radiative mechanism, which causes theglobal attraction: nonlinear energy transfer from lower to higher harmonics and subsequent dispersive radiation of energy to infinity. In conclusion, we specifythe general conjecture on global attractors, which summarizes all results obtained thus far.

Keywords

Klein--Gordon equationnonlinear oscillatorstationary orbitnonlinear eigenvalue problemglobal attractoromega-limit trajectoryKato theoremmultiplier of quasimeasuresTitchmarsh convolution theoremenergy radiation
Type
Chapter
Information
Attractors of Hamiltonian Nonlinear Partial Differential Equations , pp. 91 - 113
Publisher: Cambridge University Press
Print publication year: 2021

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