Production of open-charm pentaquark molecules in decay B0 → D0 p p

Abstract

This study investigates the production of open-charm pentaquark molecular states, specifically ND* and ND*, within the B0 → D0 p p decay. We examine the invariant mass spectra of pD0 and pD0, incorporating the rescattering process through a quasipotential Bethe-Salpeter equation approach. Our findings suggest the possible identification of the isoscalar ND* molecule with 3/2+ as the antiparticle partner of c(2940) in the pD0 mass spectrum. Although a molecular state near the ND threshold with 1/2- exists, its signal is weak, indicating that the B0 → D0 p p decay may not be ideal for its detection. A distinct signal of the isovector ND* molecule with 1/2- may appear in the pD0 invariant mass spectrum, while the signal for the 3/2- state remains very weak. We emphasize the importance of the three-body decay of the bottom meson as a valuable method for studying open-charm molecules and advocate for increased attention and more precise experimental measurements of the B0 → D0 p p decay.