Higher molecular P s/ pentaquarks arising from the c(,*) D1/c(,*) D2* interactions

Abstract

The discoveries of the P s(4459) and P s(4338) as the potential c D(*) molecules have sparked our curiosity in exploring a novel class of molecular P s/ pentaquarks. In this study, we carry out an investigation into the higher molecular pentaquarks, specifically focusing on the P s/ states arising from the c(,*) D1/c(,*) D2* interactions. Our approach employs the one-boson-exchange model, incorporating both the S-D wave mixing effect and the coupled channel effect. Our numerical results suggest that the c D1 states with I(JP)=0(1/2+,\,3/2+), the c D2* states with I(JP)=0(3/2+,\,5/2+), the c D1 states with I(JP)=0(1/2+,\,3/2+), the c D2* states with I(JP)=0(3/2+,\,5/2+), the c* D1 states with I(JP)=0(1/2+,\,3/2+,\,5/2+), and the c* D2* states with I(JP)=0(1/2+,\,3/2+,\,5/2+,\,7/2+) can be recommended as the most promising molecular P s pentaquark candidates, and there may exist the potential molecular P s pentaquark candidates for several isovector c(,*) D1/c(,*) D2* states. With the higher statistical data accumulation at the LHCb's Run II and Run III status, there is the possibility that our predicted P s/ states can be detected through the weak decay of the b baryon, especially in hunting for the predicted P s states.