Shallow-water convergence of the intermediate long wave equation in L2
Abstract
We continue our study on the convergence issue of the intermediate long wave equation (ILW) on both the real line and the circle. In particular, we establish convergence of the scaled ILW dynamics to that of the Korteweg-de Vries equation (KdV) in the shallow-water limit at the L2-level. Together with the recent work by the first three authors and D. Pilod (2024) on the deep-water convergence in L2, this work completes the well-posedness and convergence study of ILW on both geometries within the L2-framework. Our proof equally applies to both geometries and is based on the following two ingredients: the complete integrability of ILW and the normal form method. More precisely, by making use of the Lax pair structure and the perturbation determinant for ILW, recently introduced by Harrop-Griffths, Killip, and Visan (2025), we first establish weakly uniform (in small depth parameters) equicontinuity in L2 of solutions to the scaled ILW, providing a control on the high frequency part of solutions. Then, we treat the low frequency part by implementing a perturbative argument based on an infinite iteration of normal form reductions for KdV.
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