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Preliminary Results of D0 Dalitz Plot Analysis

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Presentation on theme: "Preliminary Results of D0 Dalitz Plot Analysis"— Presentation transcript:

1 Preliminary Results of D0 Dalitz Plot Analysis
Kalanand Mishra, G. Mancinelli, Brian Meadows, Mike Sokoloff University of Cincinnati Charm AWG, 6/08/06

2 Efficiency-corrected Dalitz plot
~ 4 % bkg m2(K-π0) m2(K-K+) m2(K+π0)

3 CLEO used only K*(892),  and NR terms to fit the data
CLEO Fit (prelim. result presented at FPCP 2006) CLEO had 600 events with 33 % background We have 6800 events with 4 % background CLEO used only K*(892),  and NR terms to fit the data

4 Bgd Dalitz HistPdf taken from the mD sideband
Data Fit with CLEO PDF Bgd Dalitz HistPdf taken from the mD sideband 1 Nonres_amp e e-02 (5.6 in CLEO results) 2 Nonres_phase e e+00 (220 in CLEO results) 3 K*- amp e e-02 4 K*-_phase e e+00 5  amp e e-02 6  phase e e+00 2 /nDOF =

5 Unlikely to be due to background
There isn’t much background According to MC, bgd distributions in SR and SB agree Data and MC agree in the SB

6 Try adding more resonances
(1020) K*(892)+ K*(892)- NR K*(1410)+ K(1410)*- Kappa+ Kappa- P-wave NR(+) P-wave NR(-) P-wave NR(0) K*0(1430)+ K*0(1430)-

7 Fit with K*,,K*(1410),NR Fit Fractions 2 /nDOF = 1.27373
Phi : K* : K* : Nonres : 1 K*-_amp e e-02 2 K*-_phase e e+00 3 K*1410+_amp e e-01 4 K*1410+_phase e e+00 5 K*1410-_amp e e-01 6 K*1410-_phase e e+00 7 Nonres_amp e e-02 8 Nonres_phase e e+00 9 Phi_amp e e-02 10 Phi_phase e e+00 2 /nDOF =

8 Fit with K*,,Kappa,NR Fit Fractions 2 /nDOF = 1.16075
Phi : K* : Kappa- : Nonres : 1 K*-_amp e e-02 2 K*-_phase e e+00 3 Kappa+_amp e e-02 4 Kappa+_phase e e+00 5 Kappa-_amp e e-02 6 Kappa-_phase e e+00 7 Nonres_amp e e-01 8 Nonres_phase e e+00 9 Phi_amp e e-02 10 Phi_phase e e+00 2 /nDOF =

9 Fit with K*,,Kappa Fit Fractions 2 /nDOF = 1.35428 Kappa+ : 0.15881
Phi : K* : Kappa- : K*(1410)- : 1 K*-_amp e e-02 2 K*-_phase e e+00 3 K*1410+_amp e e-01 4 K*1410+_phase e e+01 5 K*1410-_amp e e-01 6 K*1410-_phase e e+00 7 Kappa+_amp e e-02 8 Kappa+_phase e+02 9 Kappa-_amp e e-02 10 Kappa-_phase e e+00 11 Phi_amp e e-02 12 Phi_phase e e+00 2 /nDOF =

10 Try including p-wave NR
1 K*-_amp e e-02 2 K*-_phase e e+00 3 K*1410+_amp e e-01 4 K*1410+_phase e e+00 5 K*1410-_amp e e-01 6 K*1410-_phase e e+01 7 Kappa+_amp e e-01 8 Kappa+_phase e e+01 9 Kappa-_amp e e-01 10 Kappa-_phase e e+01 11 NRPW_P_amp e e+00 12 NRPW_P_phase e e+01 13 NRPW_M_amp e e+00 14 NRPW_M_phase e e+01 15 NRPW_0_amp e e+00 16 NRPW_0_phase e e+01 17 Nonres_amp e e-01 18 Nonres_phase e e+00 19 Phi_amp e e-02 20 Phi_phase e e+00 Fit Fractions K* : K* : Kappa+ : P-wave NR+ : Phi : P-wave NR0 : K* : K* : Kappa- : P-wave NR- : Nonres : 2 /nDOF =

11 Fit with everything (except p-wave NR)
2 /nDOF =

12 Fit with everything Data Fit (Data-Fit)/Poisson

13 Fit results FIT FRACTIONS: 2) K*1410+ : 0.0080731 3) Phi : 0.20659 C
NO. NAME VALUE ERROR 1 K*- amp e e-02 2 K*- phase e e+00 3 K*1410+ amp e e-01 4 K*1410+ phase e e+01 5 K*1410- amp e e-01 6 K*1410- phase e e+00 7 Kappa+ amp e e-01 8 Kappa+ phase e e+00 9 Kappa- amp e e-01 10 Kappa- phase e e+01 11 Nonres amp e e-01 12 Nonres phase e e+00 13 Phi amp e e-02 14 Phi phase e e+01 FIT FRACTIONS: 1) K*+ : 2) K*1410+ : 3) Phi : C 4) K*- : 5) K*1410- : 6) Nonres : 7) Kappa+ : 8) Kappa- :

14 To do Try to continue improving the fit
Fit systematics and the robustness of the fit: Generate and fit several hundred toy MC samples Repeat the fit with several independent data sub-samples Try to fit with different possible combinations of resonances and NR terms Other suggestions? Finally, start looking for CP asymmetry

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