📝 SummarXiv

Abstract

We study a class of (conservative) low regularity solutions to the Camassa-Holm equation on the line by exploiting the classical moment problem (in the framework of generalized indefinite strings) to develop the inverse spectral transform method. In particular, we identify explicitly the solutions that are amenable to this approach, which include solutions made up of infinitely many peaked solitons (peakons). We determine which part of the solution can be recovered from the moments of the underlying spectral measure and provide explicit formulas. We show that the solution can be recovered completely if the corresponding moment problem is determinate, in which case the solution is a (potentially infinite) superposition of peakons. However, we also explore the situation when the underlying moment problem is indeterminate. As an application, our results are then used to investigate the long-time behavior of solutions. We will demonstrate this on three exemplary cases of solutions with: (i) discrete underlying spectrum (one may choose for this initial data corresponding to Al-Salam-Carlitz II polynomials; notice that they correspond to an indeterminate moment problem); (ii) step-like initial data associated with the Laguerre polynomials, and (iii) asymptotically eventually periodic initial data associated with the Jacobi polynomials.