The process e+e-→π+π-π0γ is studied at a center-of-mass energy near the D(4S) resonance using a data sample of 469 fb-1 collected with the BABAR detector at the PEP-II collider. We have performed a precise measurement of the e+e-→π+π-π0 cross section in the center-of-mass energy range from 0.62 to 3.5 GeV. In the energy regions of the ω and φ resonances, the cross section is measured with a systematic uncertainty of 1.3%. The leading-order hadronic contribution to the muon magnetic anomaly calculated using the measured e+e-→π+π-π0 cross section from threshold to 2.0 GeV is (45.86±0.14±0.58)×10-10. From the fit to the measured 3π mass spectrum we have determined the resonance parameters Γ(ω→e+e-)B(ω→π+π-π0)=(0.5698±0.0031±0.0082) keV, Γ(φ→e+e-)B(φ→π+π-π0)=(0.1841±0.0021±0.0080) keV, and B(ρ→3π)=(0.88±0.23±0.30)×10-4. The significance of the ρ→3π signal is greater than 6σ. For the J/ψ resonance we have measured the product Γ(J/ψ→e+e-)B(J/ψ→3π)=(0.1248±0.0019±0.0026) keV.
Study of the process e+e- →π+π-π0 using initial state radiation with BABAR / Lees J.P.; Poireau V.; Tisserand V.; Grauges E.; Palano A.; Eigen G.; Brown D.N.; Kolomensky Yu.G.; Fritsch M.; Koch H.; Schroeder T.; Cheaib R.; Hearty C.; Mattison T.S.; McKenna J.A.; So R.Y.; Blinov V.E.; Buzykaev A.R.; Druzhinin V.P.; Golubev V.B.; Kozyrev E.A.; Kravchenko E.A.; Onuchin A.P.; Serednyakov S.I.; Skovpen Yu.I.; Solodov E.P.; Todyshev K.Yu.; Lankford A.J.; Dey B.; Gary J.W.; Long O.; Eisner A.M.; Lockman W.S.; Panduro Vazquez W.; Chao D.S.; Cheng C.H.; Echenard B.; Flood K.T.; Hitlin D.G.; Kim J.; Li Y.; Lin D.X.; Middleton S.; Miyashita T.S.; Ongmongkolkul P.; Oyang J.; Porter F.C.; Rohrken M.; Huard Z.; Meadows B.T.; Pushpawela B.G.; Sokoloff M.D.; Sun L.; Smith J.G.; Wagner S.R.; Bernard D.; Verderi M.; Bettoni D.; Bozzi C.; Calabrese R.; Cibinetto G.; Fioravanti E.; Garzia I.; Luppi E.; Santoro V.; Calcaterra A.; De Sangro R.; Finocchiaro G.; Martellotti S.; Patteri P.; Peruzzi I.M.; Piccolo M.; Rotondo M.; Zallo A.; Passaggio S.; Patrignani C.; Shuve B.J.; Lacker H.M.; Bhuyan B.; Mallik U.; Chen C.; Cochran J.; Prell S.; Gritsan A.V.; Arnaud N.; Davier M.; Le Diberder F.; Lutz A.M.; Wormser G.; Lange D.J.; Wright D.M.; Coleman J.P.; Gabathuler E.; Hutchcroft D.E.; Payne D.J.; Touramanis C.; Bevan A.J.; Di Lodovico F.; Sacco R.; Cowan G.; Banerjee S.; Brown D.N.; Davis C.L.; Denig A.G.; Gradl W.; Griessinger K.; Hafner A.; Schubert K.R.; Barlow R.J.; Lafferty G.D.; Cenci R.; Jawahery A.; Roberts D.A.; Cowan R.; Robertson S.H.; Seddon R.M.; Neri N.; Palombo F.; Cremaldi L.; Godang R.; Summers D.J.; Taras P.; De Nardo G.; Sciacca C.; Raven G.; Jessop C.P.; Losecco J.M.; Honscheid K.; Kass R.; Gaz A.; Margoni M.; Posocco M.; Simi G.; Simonetto F.; Stroili R.; Akar S.; Ben-Haim E.; Bomben M.; Bonneaud G.R.; Calderini G.; Chauveau J.; Marchiori G.; Ocariz J.; Biasini M.; Manoni E.; Rossi A.; Batignani G.; Bettarini S.; Carpinelli M.; Casarosa G.; Chrzaszcz M.; Forti F.; Giorgi M.A.; Lusiani A.; Oberhof B.; Paoloni E.; Rama M.; Rizzo G.; Walsh J.J.; Zani L.; Smith A.J.S.; Anulli F.; Faccini R.; Ferrarotto F.; Ferroni F.; Pilloni A.; Piredda G.; Bunger C.; Dittrich S.; Grunberg O.; Hess M.; Leddig T.; Voss C.; Waldi R.; Adye T.; Wilson F.F.; Emery S.; Vasseur G.; Aston D.; Cartaro C.; Convery M.R.; Dorfan J.; Dunwoodie W.; Ebert M.; Field R.C.; Fulsom B.G.; Graham M.T.; Hast C.; Innes W.R.; Kim P.; Leith D.W.G.S.; Luitz S.; MacFarlane D.B.; Muller D.R.; Neal H.; Ratcliff B.N.; Roodman A.; Sullivan M.K.; Va'vra J.; Wisniewski W.J.; Purohit M.V.; Wilson J.R.; Randle-Conde A.; Sekula S.J.; Ahmed H.; Tasneem N.; Bellis M.; Burchat P.R.; Puccio E.M.T.; Alam M.S.; Ernst J.A.; Gorodeisky R.; Guttman N.; Peimer D.R.; Soffer A.; Spanier S.M.; Ritchie J.L.; Schwitters R.F.; Izen J.M.; Lou X.C.; Bianchi F.; De Mori F.; Filippi A.; Gamba D.; Lanceri L.; Vitale L.; Martinez-Vidal F.; Oyanguren A.; Albert J.; Beaulieu A.; Bernlochner F.U.; King G.J.; Kowalewski R.; Lueck T.; Miller C.; Nugent I.M.; Roney J.M.; Sobie R.J.; Gershon T.J.; Harrison P.F.; Latham T.E.; Prepost R.; Wu S.L.. - In: PHYSICAL REVIEW D. - ISSN 2470-0010. - STAMPA. - 104:11(2021), pp. 112003.1-112003.31. [10.1103/PhysRevD.104.112003]
Study of the process e+e- →π+π-π0 using initial state radiation with BABAR
Patrignani C.;
2021
Abstract
The process e+e-→π+π-π0γ is studied at a center-of-mass energy near the D(4S) resonance using a data sample of 469 fb-1 collected with the BABAR detector at the PEP-II collider. We have performed a precise measurement of the e+e-→π+π-π0 cross section in the center-of-mass energy range from 0.62 to 3.5 GeV. In the energy regions of the ω and φ resonances, the cross section is measured with a systematic uncertainty of 1.3%. The leading-order hadronic contribution to the muon magnetic anomaly calculated using the measured e+e-→π+π-π0 cross section from threshold to 2.0 GeV is (45.86±0.14±0.58)×10-10. From the fit to the measured 3π mass spectrum we have determined the resonance parameters Γ(ω→e+e-)B(ω→π+π-π0)=(0.5698±0.0031±0.0082) keV, Γ(φ→e+e-)B(φ→π+π-π0)=(0.1841±0.0021±0.0080) keV, and B(ρ→3π)=(0.88±0.23±0.30)×10-4. The significance of the ρ→3π signal is greater than 6σ. For the J/ψ resonance we have measured the product Γ(J/ψ→e+e-)B(J/ψ→3π)=(0.1248±0.0019±0.0026) keV.| File | Dimensione | Formato | |
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