Predicting the existence of a 2.9 GeV Df0(980) molecular state

Abstract

A D-like meson resonance with mass around 2.9 GeV has been found in the DK K system using two independent and different model calculations based on: (1) QCD sum rules and (2) solution of Fadeev equations with input interactions obtained from effective field theories built by considering both chiral and heavy quark symmetries. The QCD sum rules have been used to study the Ds*0(2317) K and D f0(980) molecular currents. A resonance of mass 2.926 GeV is found with the D f0(980) current. Although a state in the Ds*0(2317) K current is also obtained, with mass around 2.9 GeV, the coupling of this state is found to be two times weaker than the one formed in D f0(980). On the other hand, few-body equations are solved for the D K K system and its coupled channels with the input t-matrices obtained by solving Bethe-Salpeter equations for the D K, DK and K K subsystems. In this study a D-like meson with mass 2.890 GeV and full width 55 MeV is found to get dynamically generated when D K K gets reorganized as D f0(980). However, no clear signal appears for the Ds*0(2317) K configuration. The striking similarity between the results obtained in the two different models indicates strongly towards the existence of a D f0 (980) molecule with mass nearly 2.9 GeV.