From the isovector molecular explanation of the newly Tcsa0(++)(2900) to possible charmed-strange molecular pentaquarks

Abstract

In this work, we adopt the one-boson-exchange model to study the D(*)K(*) interactions. With the same parameters, we can simultaneously reproduce the masses of the Ds0(2317), Ds1(2460), and Tcsa0(++)(2900) recently observed by the LHCb collaboration in the hadronic molecular picture, where the Ds0(2317), Ds1(2460), and Tcsa0(++)(2900) are regarded as the DK[I(JP)=0(0+)], D*K[0(1+)], and D*K*[1(0+)] charmed-strange molecular states, respectively. In addition, we extend to study the cK(*) and cK(*) interactions and predict two possible charmed-strange molecular pentaquarks, the single cK* state with I(JP)=1/2(1/2-) and 3/2(3/2-). After considering the coupled channel effects, our results show that the coupled cK*/cK* molecular state with I(JP)=1/2(1/2-) and the coupled cK/cK* molecular state with I(JP)=1/2(1/2-) can be good hadronic molecular candidates, the cK*(2S1/2) and cK(2S1/2) are the dominant channels, respectively.