Study of the lineshape of X(3872) using B decays to D0D*0K

Abstract

We present a study of the X(3872) lineshape in the decay B X(3872)K D0D*0K using a data sample of 772× 106 BB pairs collected at the (4S) resonance with the Belle detector at the KEKB asymmetric-energy e+e- collider. The peak near the threshold in the D0D*0 invariant mass spectrum is fitted using a relativistic Breit-Wigner lineshape. We determine the mass and width parameters to be m = 3873.71 +0.56-0.50 ( stat) 0.13 ( syst) ~ MeV/c2 and 0 = 5.2 +2.2-1.5 ( stat) 0.4 ( syst)~ MeV, respectively. The branching fraction is found to be B (B+ X(3872)K+) × B(X(3872) D0D*0) = (0.97 +0.21-0.18 ( stat) 0.10 ( syst)) × 10-4. The signal from B0 decays is observed for the first time with 5.2σ significance, and the ratio of branching fractions between charged and neutral B decays is measured to be B(B0 X(3872)K0)/ B(B+ X(3872)K+) = 1.34+0.47-0.40 ( stat) +0.10-0.12 ( syst). The peak is also studied using a Flatt\'e lineshape. We determine the lower limit on the DD* coupling constant g to be 0.075 at 95% credibility in the parameter region where the ratio of g to the mass difference from the D0D*0 threshold is equal to -15.11~ GeV-1, as measured by LHCb.