Implications of σ-cut potential on Antikaon condensates in neutron stars
Abstract
We investigate the properties of neutron stars with antikaon condensation in the framework of the Relativistic Mean-Field (RMF) model with a σ-cut potential. The well-known RMF models, TM1 and TM1e, are used to analyze the structure and composition of neutron stars. The antikaon condensation part of the equation of state (EoS) is constrained from the experimental data of K- atomic and kaon-nucleon scattering. The σ-cut potential, which is known to make the EoS stiffer at high densities, is modulated by a free parameter fs. Our present analysis suggests that one can obtain neutron star configurations heavier than 2M with antikaon condensates in most cases for fs = 0.6. The antikaon phase transition is a second-order for fs = 0.6 for both TM1 and TM1e parameter sets. The calculated global properties of neutron stars with antikaon condensates i.e., mass and radius seem to be in resonable agreement with other theoretical and observational data.
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