Title: The small dispersion limit of the Korteweg‐de Vries equation. I
Abstract: Abstract In Part I the scattering transform method is used to study the weak limit of solutions to the initial value problem for the Korteweg‐deVries (KdV) equation as the dispersion tends to zero. In that limit the associated Schrödinger operator becomes semiclassical, so the exact scattering data is replaced by its corresponding WKB expressions. Only nonpositive initial data are considered; in that case the limiting reflection coefficient vanishes. The explicit solution of Kay and Moses for the reflectionless inverse transform is then analyzed, and the weak limit, valid for all time, is characterized by a quadratic minimum problem with constraints. This minimum problem is reduced to a Riemann‐Hilbert problem in function theory. In Parts II and III we use function theoretical methods to solve the Riemann‐Hilbert problem in terms of solutions to an auxiliary initial value problem. The weak limit satisfies the KdV equation with the dispersive term dropped until its derivatives become infinite. Up to that time the weak limit is a strong L 2 ‐limit. At later times the weak limit is locally described by Whitham's averaged equations or, more generally, by the equations found by Flaschka et al. using multiphase averaging. For large times, behavior of the weak limit is studied directly from the minimum problem.
Publication Year: 1983
Publication Date: 1983-05-01
Language: en
Type: article
Indexed In: ['crossref']
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Cited By Count: 412
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