Younghun Hong, Changhun Yang
Published 2024-03-25, updated 2024-04-11Version 2
The Korteweg-de Vries (KdV) equation is known as a universal equation describing various long waves in dispersive systems. In this article, we prove that in a certain scaling regime, a large class of rough solutions to the Boussinesq equation are approximated by the sums of two counter-propagating waves solving the KdV equations. It extends the earlier result by \cite{Schneider1998} to slightly more regular than $L^2$-solutions. Our proof is based on robust Fourier analysis methods developed for the low regularity theory of nonlinear dispersive equations.
Comments: 17 pages, V1:Minor typos are corrected
Improved local well-posedness for the periodic "good" Boussinesq equation
The Camassa-Holm equation as the long-wave limit of the improved Boussinesq equation and of a class of nonlocal wave equations
Korteweg--de Vries limit for the Fermi--Pasta--Ulam system
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