Core Polarization and Tensor Coupling Effects on Magnetic Moments of Hypernuclei

Abstract

The effects of core polarization and tensor coupling on the magnetic moments in 13, 17, and 41 -hypernuclei are studied in the Dirac equation with scalar, vector and tensor potentials. It is found that the effect of core polarization on the magnetic moments is suppressed by tensor coupling. The tensor potential reduces the spin-orbit splitting of p states considerably. However, almost the same magnetic moments are obtained using the hyperon wave function obtained via the Dirac equation either with or without the tensor potential in the electromagnetic current vertex. The deviations of magnetic moments for p states from the Schmidt values are found to increase with nuclear mass number.