X0(2900) and c0(3930) in process B+ D+ D- K+
Abstract
This study investigates the nature of the X0(2900) and c0(3930) based on experimental results of the process B++ D- K+. We focus on the S-wave D*-K*+ and Ds+Ds- molecular states, which can be related to the X0(2900) and c0(3930), respectively. Using effective Lagrangians, we construct the potential kernel of the D*-K*+-D-K+ and Ds+Ds--D+D- interactions with a one-boson-exchange model, and determine the scattering amplitudes and their poles through a quasipotential Bethe-Salpeter equation approach. By incorporating the potential kernel into the three-body decay process B++ D- K+, we evaluate the D-K+ and D+D- invariant mass spectra, as well as the Dalitz plot, with Monte Carlo simulation. A satisfactory fit to the D-K+ and D+D- invariant mass spectra is achieved after introducing additional Breit-Wigner resonances, the X1(2900), (3770), and c2(3930) states. Prominent signals of the X0(2900) and c0(3930) states appear as peaks in the D-K+ and D+D- invariant mass spectra near 2900 and 3930 MeV, respectively. Clear event concentration of the X0(2900) and 0(3930) states is evident as strips in the Dalitz plot. The results suggest that both X0(2900) and c0(3930) can be interpreted as molecular states, with the inclusion of X1(2900) and 2(3930) necessary to describe structures in the regions near 2900 and 3930 MeV.
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