Hyperon-nucleon interaction through the K-dπ N reaction

Abstract

The hyperon-nucleon interaction is investigated through the final-state interaction in the K-dπ- p reaction. We focus on the N- N coupled-channel interaction, which produces characteristic structures around the N thresholds in the p invariant mass spectrum. The spin-triplet N p conversion amplitude is constructed within the K-matrix formalism using scattering lengths in the isospin basis. We first examine the dependence of the conversion amplitude on the N scattering lengths and find that the threshold structure is particularly sensitive to the sign of the real part of the I=1/2 scattering length. We then calculate the p invariant mass spectrum of the K-dπ- p reaction, including the contributions from the background diagrams. The resulting spectra show characteristic structures around the N thresholds, whose shapes depend on the choice of the interaction parameters. These results suggest that the p invariant mass spectrum can serve as a useful observable for constraining the N- N coupled-channel interaction.