Dalitz plot analysis of B0 D0 π+π- decays

Abstract

The resonant substructures of B0 D0 π+π- decays are studied with the Dalitz plot technique. In this study a data sample corresponding to an integrated luminosity of 3.0 fb-1 of pp collisions collected by the LHCb detector is used. The branching fraction of the B0 D0 π+π- decay in the region m(D0π)>2.1 GeV/c2 is measured to be (8.46 0.14 0.29 0.40) × 10-4, where the first uncertainty is statistical, the second is systematic and the last arises from the normalisation channel B0 D*(2010)-π+. The π+π- S-wave components are modelled with the Isobar and K-matrix formalisms. Results of the Dalitz plot analyses using both models are presented. A resonant structure at m(D0π-) ≈ 2.8 GeV/c2 is confirmed and its spin-parity is determined for the first time as JP = 3-. The branching fraction, mass and width of this structure are determined together with those of the D*0(2400)- and D*2(2460)- resonances. The branching fractions of other B0 D0 h0 decay components with h0 π+π- are also reported. Many of these branching fraction measurements are the most precise to date. The first observation of the decays B0 D0 f0(500), B0 D0 f0(980), B0 D0 (1450), B0 D3*(2760)- π+ and the first evidence of B0 D0 f0(2020) are presented.