Rigorous Roy-Steiner equation analysis of π K scattering at unphysical quark masses
Abstract
We perform a rigorous analysis of the π K scattering at an unphysical pion mass 391 MeV using the Roy-Steiner equations, which satisfy unitarity, analyticity and crossing symmetry, for the first time. Stable solutions of the Roy-Steiner equations with different quantum numbers of isospin and angular momentum are obtained in the elastic energy region, by taking inputs from the π K lattice data in the inelastic region, the lattice data from the crossed ππ KK channels, the masses of f0(500) and K* at the same pion mass from previous study, and the Regge model. Predictions on the elastic π K scattering phase shifts and the K0*(700) pole content are made. Contrary to the virtual pole scenario obtained using the K-matrix method in the literature, we find that lightest strange scalar meson K0*(700) remains a broad resonance at mπ=391 MeV. The cross-channel dynamics is found to play a crucial role in deriving the proper pole position.
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