Measurement of the Electric Form Factor of the Neutron atQ2=0.5and1.0 GeV2/c2

Measurement of the Electric Form Factor of the Neutron atQ2=0.5and1.0 GeV2/c2

G. Warren,F. R. Wesselmann,H. Zhu,P. McKee,N. Savvinov,M. Zeier,A. Aghalaryan,A. Ahmidouch,H. Arenhövel,R. Asaturyan,I. Ben-Dayan,F. Bloch,W. Boeglin,B. Boillat,H. Breuer,J. Brower,C. Carasco,M. Carl,R. Carlini,J. Cha,N. Chant,E. Christy,L. Cole,L. Coman,M. Coman,D. Crabb,S. Danagoulian,Donal Day,K. Duek,J. Dunne,M. Elaasar,R. Ent,J. Farrell,R. Fatemi,D. Fawcett,H. Fenker,T. Forest,K. Garrow,A. Gasparian,I. Goussev,P. Gueye,M. Harvey,M. Hauger,R. Herrera,B. Hu,I. Jaegle,M. Jones,J. Jourdan,C. Keith,J. Kelly,C. Keppel,M. Khandaker,A. Klein,A. Klimenko,L. Kramer,B. Krusche,S. Kuhn,Y. Liang,J. Lichtenstadt,R. Lindgren,J. Liu,A. Lung,D. Mack,G. MacLachlan,P. Markowitz,D. McNulty,D. Meekins,J. Mitchell,H. Mkrtchyan,R. Nasseripour,I. Niculescu,K. Normand,B. Norum,A. Opper,E. Piasetzky,J. Pierce,M. Pitt,Y. Prok,B. Raue,Joerg Reinhold,J. Roche,D. Rohe,O. Rondon,D. Sacker,B. Sawatzky,M. Seely,I. Sick,N. Simicevic,C. Smith,G. Smith,M. Steinacher,S. Stepanyan,J. Stout,V. Tadevosyan,S. Tajima,L. Tang,G. Testa,R. Trojer,B. Vlahovic,B. Vulcan,K. Wang,S. Wells,H. Woehrle,S. Wood,C. Yan,Y. Yanay,L. Yuan,J. Yun,B. Zihlmann;G. Warren;F. R. Wesselmann;H. Zhu;P. McKee;N. Savvinov;M. Zeier;A. Aghalaryan;A. Ahmidouch;H. Arenhövel;R. Asaturyan;I. Ben-Dayan;F. Bloch;W. Boeglin;B. Boillat;H. Breuer;J. Brower;C. Carasco;M. Carl;R. Carlini;J. Cha;N. Chant;E. Christy;L. Cole;L. Coman;M. Coman;D. Crabb;S. Danagoulian;Donal Day;K. Duek;J. Dunne;M. Elaasar;R. Ent;J. Farrell;R. Fatemi;D. Fawcett;H. Fenker;T. Forest;K. Garrow;A. Gasparian;I. Goussev;P. Gueye;M. Harvey;M. Hauger;R. Herrera;B. Hu;I. Jaegle;M. Jones;J. Jourdan;C. Keith;J. Kelly;C. Keppel;M. Khandaker;A. Klein;A. Klimenko;L. Kramer;B. Krusche;S. Kuhn;Y. Liang;J. Lichtenstadt;R. Lindgren;J. Liu;A. Lung;D. Mack;G. MacLachlan;P. Markowitz;D. McNulty;D. Meekins;J. Mitchell;H. Mkrtchyan;R. Nasseripour;I. Niculescu;K. Normand;B. Norum;A. Opper;E. Piasetzky;J. Pierce;M. Pitt;Y. Prok;B. Raue;Joerg Reinhold;J. Roche;D. Rohe;O. Rondon;D. Sacker;B. Sawatzky;M. Seely;I. Sick;N. Simicevic;C. Smith;G. Smith;M. Steinacher;S. Stepanyan;J. Stout;V. Tadevosyan;S. Tajima;L. Tang;G. Testa;R. Trojer;B. Vlahovic;B. Vulcan;K. Wang;S. Wells;H. Woehrle;S. Wood;C. Yan;Y. Yanay;L. Yuan;J. Yun;B. Zihlmann;
physical review letters 2004 Vol. 92 pp. 042301-
189
zihlmann2004physicalmeasurement

Abstract

The electric form factor of the neutron was determined from measurements of the d→(e→,e′n)p reaction for quasielastic kinematics. Polarized electrons were scattered off a polarized deuterated ammonia (ND315) target in which the deuteron polarization was perpendicular to the momentum transfer. The scattered electrons were detected in a magnetic spectrometer in coincidence with neutrons in a large solid angle detector. We find GEn=0.0526±0.0033(stat)±0.0026(sys) and 0.0454±0.0054±0.0037 at Q2=0.5 and 1.0 (GeV/c)2, respectively.

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