Coupled-channel analysis of the possible D(*)D(*), B(*)B(*) and D(*)B(*) molecular states

Abstract

We perform a coupled-channel study of the possible deuteron-like molecules with two heavy flavor quarks, including the systems of D(*)D(*) with double charm, B(*)B(*) with double bottom and D(*)B(*) with both charm and bottom, within the one-boson-exchange model. In our study, we take into account the S-D mixing which plays an important role in the formation of the loosely bound deuteron, and particularly, the coupled-channel effect in the flavor space. According to our calculation, the states D(*)D(*)[I(JP)=0(1+)] and (D(*)D(*))s[JP=1+] with double charm, the states B(*)B(*)[I(JP)=0(1+),0(2+),1(0+),1(1+),1(2+)], (B(*)B(*))s[JP=0+,1+,2+] and (B(*)B(*))ss[JP=0+,1+,2+] with double bottom, and the states D(*)B(*)[I(JP)=0(0+),0(1+)] and (D(*)B(*))s[JP=0+,1+] with both charm and bottom are good molecule candidates. However, the existence of the states D(*)D(*)[I(JP)=0(2+)] with double charm and D(*)B(*)[I(JP)=1(1+)] with both charm and bottom is ruled out.