-nuclear spin-orbit coupling from two-pion exchange

Abstract

Using SU(3) chiral perturbation theory we calculate the density-dependent complex-valued spin-orbit coupling strength U ls(kf)+ i W ls(kf) of a hyperon in the nuclear medium. The leading long-range N interaction arises from iterated one-pion exchange with a or a hyperon in the intermediate state. We find from this unique long-range dynamics a sizeable ``wrong-sign'' spin-orbit coupling strength of U ls(kf0) -20 MeVfm2 at normal nuclear matter density 0 = 0.16 fm-3. The strong N N conversion process contributes at the same time an imaginary part of W ls(kf0) -12 MeVfm2. When combined with estimates of the short-range contribution the total -nuclear spin-orbit coupling becomes rather weak.