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Paralinearization of the Dirichlet to Neumann operator, and regularity of three-dimensional water waves
This paper is concerned with a priori regularity for
three-dimensional doubly periodic travelling gravity waves whose fundamental
domain is a symmetric diamond. The existence of such waves was a long standing
open problem solved recently by Iooss and Plotnikov. The main difficulty is
that, unlike conventional free boundary problems, the reduced boundary system
is not elliptic for three-dimensional pure gravity waves, which leads to small
divisors problems. Our main result asserts that sufficiently smooth diamond
waves which satisfy a diophantine condition are automatically . In
particular, we prove that the solutions defined by Iooss and Plotnikov are
. Two notable technical aspects are that (i) no smallness condition
is required and (ii) we obtain an exact paralinearization formula for the
Dirichlet to Neumann operator.Comment: Corrected versio
Freak Edge Waves
The nonlinear and unsteady dynamics of the edge waves is discussed. Two physical processes: dispersive focusing and nonlinear modulational instability, are studied. Both mechanisms can induce the appearance of the short-living large-amplitude isolated waves and intense wave packets (âfreak edge wavesâ)
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