C
C. E. Jones
Researcher at California Institute of Technology
Publications - 30
Citations - 1353
C. E. Jones is an academic researcher from California Institute of Technology. The author has contributed to research in topics: Nucleon & Scattering. The author has an hindex of 18, co-authored 29 publications receiving 1283 citations. Previous affiliations of C. E. Jones include University of Wisconsin-Madison & Argonne National Laboratory.
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Journal ArticleDOI
Basic instrumentation for Hall A at Jefferson Lab
J. Alcorn,B. D. Anderson,K. A. Aniol,Jrm Annand,L. B. Auerbach,John Arrington,T. Averett,F. T. Baker,M. Baylac,E. J. Beise,J. Berthot,P.Y. Bertin,William Bertozzi,L. Bimbot,T. Black,T. Black,W. U. Boeglin,D. V. Boykin,E. J. Brash,Vincent Breton,H. Breuer,P. Brindza,D. S. Brown,E. Burtin,J. R. Calarco,L. Cardman,R. Carr,Gordon D. Cates,Gordon D. Cates,C. Cavata,Z. Chai,C. C. Chang,N. S. Chant,Jian-Ping Chen,Seonho Choi,E. Chudakov,S. Churchwell,M. Coman,E. Cisbani,S. Colilli,N. Colombel,R. Crateri,D. S. Dale,N. Degrande,C. W. de Jager,R. De Leo,A. Deur,A. Deur,A. Deur,G. Dezern,B. Diederich,Sonja Dieterich,R. Di Salvo,P. Djawotho,J. Domingo,J.E. Ducret,Dipangkar Dutta,K. S. Egiyan,M. B. Epstein,Stephanie Escoffier,S. Esp,L. A. Ewell,J. M. Finn,Kevin Fissum,Kevin Fissum,E. Folts,H. Fonvieille,B. Frois,S. Frullani,Haiyan Gao,Haiyan Gao,J. Gao,J. Gao,F. Garibaldi,A. Gasparian,A. Gasparian,A. Gavalya,Olivier Gayou,Olivier Gayou,Shalev Gilad,Ronald Gilman,Ronald Gilman,F. Giuliani,A. V. Glamazdin,C. Glashausser,J. Gomez,V. Gorbenko,T. P. Gorringe,M. Gricia,K. A. Griffioen,David Hamilton,J. O. Hansen,F. W. Hersman,Douglas Higinbotham,R. Holmes,H. Holmgren,M. Holtrop,N. d'Hose,E. Hovhannisyan,C. R. Howell,G. M. Huber,E. W. Hughes,C. E. Hyde-Wright,H. F. Ibrahim,Sebastien Incerti,Mauro Iodice,R. Iommi,D. G. Ireland,S. Jaminion,J. Jardillier,S. Jensen,X. Jiang,C. E. Jones,M. K. Jones,M. K. Jones,K. Joo,K. Joo,C. Jutier,C. Jutier,W. Kahl,Seigo Kato,A. T. Katramatou,James J. Kelly,S. Kerhoas,A. Ketikyan,M. Khandaker,M. Khayat,K. Kino,I. K. Kominis,Wolfgang Korsch,S. Kox,K. Kramer,K. S. Kumar,K. S. Kumar,G. J. Kumbartzki,M. Kuss,L. Lagamba,G. Laveissière,A. Leone,J. LeRose,F. Marie,Leonid Levchuk,M. Leuschner,D. Lhuillier,M. Liang,K. Livingston,R. A. Lindgren,Nilanga Liyanage,Nilanga Liyanage,Nilanga Liyanage,G. J. Lolos,R. W. Lourie,R. W. Lourie,M. Lucentini,R. Madey,R. Madey,R. Madey,Kazushige Maeda,S. Malov,David Manley,D. J. Margaziotis,Pete Markowitz,J. Marroncle,J. Martine,S. Mayilyan,J. S. McCarthy,K. McCormick,K. McCormick,K. McCormick,J. Mclntyre,R. D. McKeown,D. G. Meekins,R. L.J. van der Meer,R. L.J. van der Meer,Z. E. Meziani,R. Michaels,B. D. Milbrath,James A. Miller,W. Miller,J. H. Mitchell,J. H. Mitchell,J. Y. Mougey,S. K. Nanda,Alan M. Nathan,D. Neyret,E. A.J.M. Offermann,E. A.J.M. Offermann,Z. Papandreou,C. F. Perdrisat,Roberto Perrino,G. G. Petratos,A. Petrosyan,L. Pierangeli,S. Platchkov,R. I. Pomatsalyuk,D. Pripstein,David L. Prout,V. A. Punjabi,T. Pussieux,G. Quéméner,G. Quéméner,R. D. Ransomez,O. Ravel,B. Reitz,Y. Roblin,Y. Roblin,R. Roche,R. Roche,M. Roedelbronn,O. Rondon-Aramayo,P. G. Roos,G. Rosner,D. Rowntree,G. A. Rutledge,P. M. Rutt,M. Rvachev,F. Sabatavenere,Arijit Saha,T. Saito,F. Santavenere,A. J. Sarty,A. J. Sarty,W. J. Schneider,J. Segal,A. Serdarevic-Offermann,A. Serdarevic-Offermann,A. Shahinyan,Karl Slifer,T. P. Smith,A. Soldi,Pavel Sorokin,Paul Souder,S. L. Spiegel,M. A. Stevens,S. Strauch,S. Strauch,R. Suleiman,R. Suleiman,J. A. Templon,T. Terasawa,L. Todor,L. Todor,Hiroaki Tsubota,H. Ueno,P. E. Ulmer,G. M. Urciuoli,L. Van Hoorebeke,R. Van de Vyver,S. van Verst,P. Vernin,Branislav Vlahovic,Branislav Vlahovic,H. Voskanyan,E. Voutier,R. L. Walter,J. W. Watson,D. P. Watts,Larry Weinstein,K. Wijesooriya,K. Wijesooriya,K. Wijesooriya,Bogdan Wojtsekhowski,H. Xiang,F. Xiong,W. Xu,D. G. Zainea,V. Zeps,Jing Zhao,X. Zheng,X. Zheng,Z. L. Zhou,L. Zhu,P. A. Zolnierczuk +272 more
TL;DR: The Thomas Jefferson National Accelerator Facility was designed to study electro-and photo-induced reactions at very high luminosity and good momentum and angular resolution for at least one of the reaction products.
Journal ArticleDOI
Measurements of the Elastic Electromagnetic Form Factor Ratio Mu(P)G(Ep)/G(Mp) Via Polarization Transfer
Olivier Gayou,Olivier Gayou,K. Wijesooriya,Andrei Afanasev,Andrei Afanasev,M. Amarian,K. A. Aniol,S. Becher,K. Benslama,L. Bimbot,P. Bosted,E. J. Brash,J. R. Calarco,Z. Chai,C. C. Chang,T. Chang,Jian-Ping Chen,Seonho Choi,E. Chudakov,S. Churchwell,D. Crovelli,Sonja Dieterich,S. Dumalski,Dipanwita Dutta,M. B. Epstein,Kevin Fissum,B. D. Fox,S. Frullani,Haiyan Gao,J. Gao,F. Garibaldi,Ronald Gilman,Ronald Gilman,S. Glamazdin,Charles Glashausser,J. Gomez,V. Gorbenko,Olfred Hansen,R. J. Holt,J. Hovdebo,G. M. Huber,C. W. de Jager,X. Jiang,C. E. Jones,M. K. Jones,James J. Kelly,E. R. Kinney,Edgar E. Kooijman,G. Kumbartzki,M. Kuss,J. J. LeRose,M. Liang,R. A. Lindgren,Nilanga Liyanage,S. Malov,D. J. Margaziotis,Pete Markowitz,K. McCormick,D. Meekins,Z. E. Meziani,R. Michaels,John C. Mitchell,L. Morand,C. F. Perdrisat,R. I. Pomatsalyuk,V. A. Punjabi,Ronald Ransome,R. Roche,M. Rvachev,A. Saha,A. J. Sarty,A. J. Sarty,E. Schulte,E. Schulte,Daniel Simon,Steffen Strauch,R. Suleiman,L. Todor,P. E. Ulmer,G. M. Urciuoli,Bogdan Wojtsekhowski,F. Xiong,W. Xu +82 more
TL;DR: In this paper, the authors used the Jefferson Lab Hall Focal Plane Polarimeter to determine the longitudinal and transverse components of the recoil proton polarization in ep elastic scattering; the ratio of these polarization components is proportional to the proportion of the two form factors.
Journal ArticleDOI
Strange magnetism and the anapole structure of the proton
R. Hasty,A. M. Hawthorne-Allen,T. Averett,D. Barkhuff,Douglas H Beck,E. J. Beise,A. Blake,H. Breuer,R. Carr,S. Covrig,Areg Danagoulian,G. W. Dodson,K. A. Dow,M. Farkhondeh,B. W. Filippone,J. Gao,M. C. Herda,Takeyasu M. Ito,C. E. Jones,Wolfgang Korsch,K. Kramer,S. Kowalski,Pei Yun Lee,R. D. McKeown,B. Mueller,Michael Pitt,J. Ritter,J. Roche,V. Savu,D. T. Spayde,Raphael Noel Tieulent,Evgeni Tsentalovich,S. Wells,Bao Yang,T. Zwart +34 more
TL;DR: In this paper, it was shown that the symmetry violation of mirror symmetry in the weak force provides a powerful tool to study the internal structure of the proton, which has important implications for precision weak interaction studies in atomic systems such as cesium.
Journal ArticleDOI
Parity violation in elastic electron-proton scattering and the proton's strange magnetic form factor
D. T. Spayde,T. Averett,D.H. Barkhuff,Douglas H Beck,E. J. Beise,C. Benson,H. Breuer,R. Carr,S. Covrig,J. DelCorso,G. W. Dodson,K. A. Dow,C. Eppstein,M. Farkhondeh,B. W. Filippone,P. Frazier,R. Hasty,Takeyasu M. Ito,C. E. Jones,Wolfgang Korsch,S. Kowalski,Pei Yun Lee,Elitza Maneva,K. McCarty,R. D. McKeown,J. Mikell,B. Mueller,P. Naik,Michael Pitt,J. Ritter,V. Savu,Matthew James Sullivan,Raphael Noel Tieulent,Evgeni Tsentalovich,S. P. Wells,Bao Yang,T. Zwart +36 more
TL;DR: A new measurement of the parity-violating asymmetry in elastic electron scattering from the proton at backward scattering angles is reported and the implications for the strange magnetic form factor are discussed in the context of theoretical estimates for the axial corrections.
Journal ArticleDOI
Parity-violating Electron Deuteron Scattering and the Proton’s Neutral Weak Axial Vector Form Factor
Takeyasu M. Ito,T. Averett,D. Barkhuff,G. Batigne,Douglas H Beck,E. J. Beise,A. Blake,H. Breuer,R. Carr,Benjamin Clasie,S. Covrig,Areg Danagoulian,G. W. Dodson,K. A. Dow,Dipangkar Dutta,M. Farkhondeh,B. W. Filippone,W. Franklin,C. Furget,Haiyan Gao,Jiansong Gao,K. Gustafsson,L. Hannelius,R. Hasty,A. M. Hawthorne-Allen,M. C. Herda,C. E. Jones,P. M. King,Wolfgang Korsch,S. Kowalski,S. Kox,K. Kramer,P. Lee,Jin Liu,J. W. Martin,R. D. McKeown,B. Mueller,Michael Pitt,Brad Plaster,G. Quéméner,J. S. Real,J. Ritter,J. Ritter,J. Roche,V. Savu,Rocco Schiavilla,Rocco Schiavilla,J. Seely,D. T. Spayde,R. Suleiman,Stephen Taylor,Raphael Noel Tieulent,B. Tipton,Evgeni Tsentalovich,S. Wells,B. Yang,Junhua Yuan,J. Yun,T. Zwart +58 more
TL;DR: A new measurement of the parity-violating asymmetry in quasielastic electron scattering from the deuteron at backward angles at Q2=0.038 (GeV/c)2 is reported, which provides a determination of the neutral weak axial vector form factor of the nucleon, which can potentially receive large electroweak corrections.