Amplitude Analyses of D0 π+π-π+π- and D0 K+K-π+π- Decays

Abstract

The resonant substructure of D0 π+π-π+π- decays is studied using data collected by the CLEO-c detector. An amplitude analysis is performed in order to disentangle the various intermediate state contributions. To limit the model complexity a data driven regularization procedure is applied. The prominent contributions are the decay modes D0 a1(1260)+π-, D0 σ f0(1370) and D0 (770)0 (770)0. The broad resonances a1(1260)+, π(1300)+ and a1(1640)+ are studied in detail, including quasi-model-independent parametrizations of their lineshapes. The mass and width of the a1(1260)+ meson are determined to be ma1(1260)+=[12259(stat)17(syst)10(model)]MeV/c2 and a1(1260)+=[43024(stat)25 (syst)18(model)]MeV. The amplitude model of D0 K+K-π+π- decays obtained from CLEO II.V, CLEO III, and CLEO-c data is revisited with improved lineshape parametrizations. The largest components are the decay modes D0φ(1020)(770)0, D0 K1(1270)+ K- and D0 K(1400)+ K-. The fractional CP-even content of the decay D0 π+π-π+π- is calculated from the amplitude model to be F+4π=[72.90.9(stat)1.5(syst)1.0(model)]\%, consistent with that obtained from a previous model-independent measurement. For D0 K+K-π+π- decays, the CP-even fraction is measured for the first time and found to be F+KKππ=[75.31.8(stat)3.3(syst)3.5(model)]\%. The global decay rate asymmetries between D0 and D0 decays are measured to be A4πCP=[+0.541.04(stat)0.51(syst)]\% and AKKππCP=[+1.841.74(stat)0.30(syst)]\%.