ppK- bound states from Skyrmions

Abstract

The bound kaon approach to the strangeness in the Skyrme model is applied to investigating the possibility of deeply bound ppK- states. We describe the ppK- system as two-Skyrmion around which a kaon field fluctuates. Each Skyrmion is rotated in the space of SU(2) collective coordinate. The rotational motions are quantized to be projected onto the spin-singlet proton-proton state. We derive the equation of motion for the kaon in the background field of two Skyrmions at fixed positions. From the numerical solution of the equation of motion, it is found that the energy of K- can be considerably small, and that the distribution of K- shows molecular nature of the ppK- system. For this deep binding, the Wess-Zumino-Witten term plays an important role. The total energy of the ppK- system is estimated in the Born-Oppenheimer approximation. The binding energy of the ppK- state is B.E. 126 MeV. The mean square radius of the pp subsystem is < rpp2> 1.6 fm.