Isospin Effect in Three-Body Kaonic Clusters

Abstract

The kaonic clusters K-K-p and ppK- are described based on the configuration space Faddeev equations for AAB system. The AB interaction is given by isospin-dependent potentials. For this isospin model, we show that the relation E3(VAA=0)~<~2 E2 is satisfied when E2 is the binding energy of the AB subsystem and E3(VAA=0) is the three-body binding energy when interaction between identical particles is omitted, VAA=0. For the NN K system, taking into account weak attraction of NN interaction the relation leads to the evaluation |E3| 2|E2|. The "isospinless model" for the kaonic clusters based on the isospin averaged N K potential demonstrates the opposite relation E3(VAA=0)~>~2 E2. The isospin "given charge formalism" is presented for NN K cluster. This formalism is related to isospin model by unitary transformation of the isospin basis. An interpretation of the "particle representation" for NN K system is proposed.