S-wave KN scattering in a renormalizable chiral effective field theory
Abstract
We investigate the s-wave KN scattering up to next-to-leading order within a renormalizable framework of covariant chiral effective field theory. Using time-ordered perturbation theory, the scattering amplitude is obtained by treating the leading-order interaction non-perturbatively and including the higher-order corrections perturbatively via the subtractive renormalization. We demonstrate that the non-perturbative treatment is essential, at least at lowest order, in the SU(3) sector of KN scattering. Our NLO study achieves a good description of the empirical s-wave phase shifts in the isospin I=1 channel. An analysis of the effective range expansion yields a negative effective range, consistent with some partial wave analyses but opposite in sign to earlier phenomenological summaries. For the I=0 counterpart, the KN interaction is found to be rather weak and exhibits large uncertainties. Further low-energy KN scattering experiments and lattice QCD simulations are needed to better constrain both s-wave channels.
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