Patrick Gerard, Thomas Kappeler
Published 2019-05-06Version 1
In this paper we prove that the Benjamin-Ono equation, when considered on the torus, is an integrable (pseudo)differential equation in the strongest possible sense: it admits global Birkhoff coordinates on the space $L^2(\T)$. These are coordinates which allow to integrate it by quadrature and hence are also referred to as nonlinear Fourier coefficients. As a consequence, all the $L^2(\T)$ solutions of the Benjamin--Ono equation are almost periodic functions of the time variable. The construction of such coordinates relies on the spectral study of the Lax operator in the Lax pair formulation of the Benjamin--Ono equation and on the use of a generating functional, which encodes the entire Benjamin--Ono hierarchy.
Well-posedness and dispersive decay of small data solutions for the Benjamin-Ono equation
The zero dispersion limit for the Benjamin--Ono equation on the line
Stability in $H^{1/2}$ of the sum of $K$ solitons for the Benjamin-Ono equation
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