Measurement of theN→Δ+(1232)Transition at High-Momentum Transfer byπ0Electroproduction

M Ungaro,P L Cole,D Branford,B E Bonner,E De Sanctis,F Sabatié,R J Feuerbach,G S Mutchler,D S Carman,P Ambrozewicz,S Niccolai,N Markov,M Khandaker,J D Kellie,S Mehrabyan,M Mirazita,E Polli,S A Philips,J R Calarco,A V Vlassov,F X Girod,K Mikhailov,D Doughty,A V Skabelin,M Anghinolfi,L Morand,M Garçon,D P Weygand,N Guler,A Deur,N A Baltzell,O Pogorelko,K L Giovanetti,K Hicks,R Bradford,G Rosner,H Avakian,R Fatemi,Y Ilieva,B Mckinnon,J P Santoro,R A Schumacher,K A Griffioen,A Cazes,L Todor,J Lachniet,I Niculescu,M Guidal,S Stepanyan,N Pivnyuk,B B Niczyporuk,D Heddle,E Pasyuk,H G Juengst,S Pozdniakov,H S Jo,D I Sober,R A Niyazov,S Barrow,G Ricco,M Ripani,A I Ostrovidov,U Thoma,H Denizli,V S Serov,A Yegneswaran,B M Preedom,R W Gothe,D Protopopescu,Y Prok,J Hardie,D J Tedeschi,C Butuceanu,H Egiyan,C Tur,V Batourine,W Kim,K V Dharmawardane,M D Mestayer,R Devita,M Battaglieri,P Coltharp,J Napolitano,G Gavalian,Y G Sharabian,S Boiarinov,J Langheinrich,P V Degtyarenko,K S Egiyan,I I Strakovsky,V Sapunenko,D Cords,I Bedliski,D G Ireland,M Osipenko,B L Berman,G E Dodge,P Eugenio,V Gyurjyan,J J Melone,M Bektasoglu,S L Careccia,P Stoler,S Tkachenko,S Strauch,S A Morrow,M Bellis,W J Briscoe,I Hleiqawi,M Guillo,O P Dzyubak,M Holtrop,S Mcaleer,M Nozar,F W Hersman,P Corvisiero,G Niculescu,S Bültmann,G Audit,E Wolin,S E Kuhn,C Djalali,M Amarian,J M Laget,G Asryan,K Livingston,M Taiuti,M Kossov,A Tkabladze,N Benmouna,H Bagdasaryan,D Počanić ,L H Kramer,G Fedotov,K Park,Claude Marchand ,David Jenkins ,M M Ito,Б С Ишханов ,C A Meyer,L B Guo ,D Lawrence,V Mokeev,J Ball ,B Zhao,L C Smith,M F Vineyard,L B Weinstein,S Bouchigny,A Biselli ,B Zhang,J Donnelly,J W Price,Carlos A Salgado ,A Stavinsky,J Li ,L M Qin,J Kühn ,A Klein,D Crabb,B A Raue,S Dytman,L Elouadrhiri,C I O Gordon ,M Williams,V Kubarovsky,R Nasseripour,M H Wood,L Dennis,I.g Aznauryan ,B A Mecking,S Chen,J Zhang,G P Gilfoyle,J T Goetz ,H O Funsten ,J P Cummings,B E Stokes,Volker Burkert ,G Riccardi,R Minehart,Frank Klein ,R Miskimen,K S Joo ,C Hadjidakis,M R Niroula ,G Feldman,F Ronchetti,R Hakobyan ,T Lee,E S Smith,C E Hyde‐Wright ,P Rossi,A V Klimenko,P D Rubin,G S Adams ,W K Brooks,J Muêller ,M Dugger,Barry Ritchie ,G V O’Rielly,L Zana,J W C Mcnabb

doi:10.1103/physrevlett.97.112003

Abstract

We report a new measurement of the exclusive electroproduction reaction gamma(*)p-->pi(0)p to explore the evolution from soft nonperturbative physics to hard processes via the Q(2) dependence of the magnetic (M(1+)), electric (E(1+)), and scalar (S(1+)) multipoles in the N-->Delta transition. 9000 differential cross section data points cover W from threshold to 1.4 GeV/c(2), 4pi center-of-mass solid angle, and Q(2) from 3 to 6 GeV(2)/c(2), the highest yet achieved. It is found that the magnetic form factor G(M)(*) decreases with Q(2) more steeply than the proton magnetic form factor, the ratio E(1+)/M(1+) is small and negative, indicating strong helicity nonconservation, and the ratio S(1+)/M(1+) is negative, while its magnitude increases with Q(2).

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