Chiral unitary approach to the low-energy πN scattering

Starting from a recent model where the KN amplitudes are evaluated from the chiral Lagrangians using a coupled-channel unitary method, we evaluate here the scattering length for K --deuteron scattering. We find that the double scattering contribution is very large compared to the impulse approximati

Using a chiral unitary model in which the negative parity nucleon resonance N \* ≡ N \* (1535) is generated dynamically by means of the Bethe-Salpeter equation with coupled meson-baryon channels in the S = 0 sector, we have obtained the π 0 N \* N \* and ηN \* N \* couplings. The π 0 N \* N \* coupl

We calculate for the s-, p 1/2 -and p 3/2 -waves the electromagnetic corrections which must be subtracted from the nuclear phase shifts obtained from the analysis of low-energy π + p elastic scattering data, in order to obtain hadronic phase shifts. The calculation uses relativised Schrödinger equat

An eikonal expansion of the potential scattering T matrix is evaluated, without approximation, through third order in the inverse momentum. Based on the results, their correspondence with the WKB approximation and a new statement of the unitarity constraint, we propose a sequence of four approximati