Stability of multi-solitons for the Benjamin-Ono equation

Yang Lan, Zhong Wang

Published 2023-02-28Version 1

This paper is concerned with the dynamical stability of the $N$-solitons of the Benjamin-Ono (BO) equation. This extends the work of Neves and Lopes \cite{LN} which was restricted to $N=2$ the double solitons case. By constructing a suitable Lyapunov functional, it is found that the multi-solitons are non-isolated constrained minimizers satisfying a suitable variational nonlocal elliptic equation, the stability issue is reduced to the spectral analysis of higher order nonlocal operators consist of the Hilbert transform. Such operators are isoinertial and the negative eigenvalues of which are located. Our approach in the spectral analysis consists in an invariant for the multi-solitons and new operator identities motivated by the bi-Hamiltonian structure of the BO equation. Since the BO equation is more likely a two dimensional integrable system, its recursion operator is not explicit and which contributes the main difficulties in our analysis. The key ingredient in the spectral analysis is by employing the completeness in $L^2$ of the squared eigenfunctions of the eigenvalue problem for the BO equation. It is demonstrated here that orbital stability of soliton in $H^{\frac{1}{2}}(\R)$ implies that all $N$-solitons are dynamically stable in $H^{\frac{N}{2}}(\R)$.