# Kulish-Sklyanin type models: integrability and reductions

**Authors:** Vladimir S. Gerdjikov

arXiv: 1702.04010 · 2017-09-20

## TL;DR

This paper explores integrability and reductions of Kulish-Sklyanin models using Riemann-Hilbert problems, leading to new 2-component NLS equations and a generalized Fourier transform approach for inverse scattering.

## Contribution

It introduces a novel Riemann-Hilbert problem formulation for KS models on different domains, revealing new reductions and associated 2-component NLS equations.

## Key findings

- Derived new 2-component NLS equations from reductions.
- Established a generalized Fourier transform framework for inverse scattering.
- Connected RHP formulations to the hierarchy of Hamiltonian structures.

## Abstract

We start with a Riemann-Hilbert problem (RHP) related to a BD.I-type symmetric spaces $SO(2r+1)/S(O(2r-2s +1)\otimes O(2s))$, $s\geq 1$. We consider two Riemann-Hilbert problems: the first formulated on the real axis $\mathbb{R}$ in the complex $\lambda$-plane; the second one is formulated on $\mathbb{R} \oplus i\mathbb{R}$. The first RHP for $s=1$ allows one to solve the Kulish-Sklyanin (KS) model; the second RHP is relevant for a new type of KS model. An important example for nontrivial deep reductions of KS model is given. Its effect on the scattering matrix is formulated. In particular we obtain new 2-component NLS equations. Finally, using the Wronskian relations we demonstrate that the inverse scattering method for KS models may be understood as a generalized Fourier transforms. Thus we have a tool to derive all their fundamental properties, including the hierarchy of equations and the hierarchy of their Hamiltonian structures.

## Full text

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## Figures

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## References

35 references — full list in the complete paper: https://tomesphere.com/paper/1702.04010/full.md

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Source: https://tomesphere.com/paper/1702.04010