On a possible 3φH hypernucleus with HAL QCD interaction

Abstract

Within the framework of the Faddeev formalism in configuration space, we investigate bound states in the φ NN system with total isospin T=0 and T=1. The recently proposed lattice HAL QCD φ N potential in the 4S3/2 channel does not support either φ N or φ NN bound states. The HAL QCD φ N potential in the 2S1/2 channel suggests the bound states for φ N and φ NN (S=0) systems. However, the binding energies are highly sensitive to variations of the enhancement factor β, and the φ NN system is extremely strongly bound in the state S=0. Considering a spin-averaged potential %(13Vφ N1/2+23Vφ N3/2) for the state S=1 yields a bound state for 3φH (S=1) hypernucleus with the binding energy (BE) 14.9 MeV when β = 6.9. The evaluation of the BE for the S=1, T=1 three-body state results in 5.47 MeV. %Also, We evaluated the BE for the S=1, T=1 three-body state as 5.47 MeV. Additionally, calculations using our approach confirm the bound states for the φ NN (S=2,T=0 and S=1, T=1) system previously predicted with the Yukawa-type potential motivated by the QCD van der Waals attractive force, mediated by multi-gluon exchanges.

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