Nuclear matter properties in the relativistic mean field model with sigma-omega coupling

Abstract

The possibility of extending the linear sigma-omega model by introducing a sigma-omega coupling phenomenologically is explored. It is shown that, in contrast to the usual Walecka model, not only the effective nucleon mass M* but also the effective sigma meson mass m*sigma and the effective omega meson mass m*omega are nucleon density dependent. When the model parameters are fitted to the nuclear saturation point (the nuclear radius constant r0=1.14fm and volume energy a1=16.0MeV) as well as to the effective nucleon mass M*=0.85M, the model yields m*sigma=1.09msigma and m*omega=0.90momega at the saturation point, and the nuclear incompressibility K0=501MeV. The lowest value of K0 given by this model by adjusting the model parameters is around 227MeV.

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