Z
Zein-Eddine Meziani
Researcher at Temple University
Publications - 48
Citations - 2519
Zein-Eddine Meziani is an academic researcher from Temple University. The author has contributed to research in topics: Nucleon & Quark. The author has an hindex of 18, co-authored 48 publications receiving 2036 citations. Previous affiliations of Zein-Eddine Meziani include University of Pennsylvania.
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Journal ArticleDOI
Electron-Ion Collider: The next QCD frontier: Understanding the glue that binds us all
Alberto Accardi,Alberto Accardi,Javier L. Albacete,M. Anselmino,Néstor Armesto,Elke Aschenauer,Alessandro Bacchetta,Daniël Boer,W. K. Brooks,T. P. Burton,N.-B. Chang,W.-T. Deng,W.-T. Deng,A. Deshpande,Markus Diehl,Adrian Dumitru,R. Dupré,R. Ent,Salvatore Fazio,Haiyan Gao,Vadim Guzey,H. Hakobyan,Yue Hao,D. Hasch,R. J. Holt,T. Horn,M. Huang,Andrew Hutton,C. E. Hyde,J. Jalilian-Marian,S. R. Klein,B. Kopeliovich,Yuri V. Kovchegov,K. S. Kumar,Krešimir Kumerički,M. A.C. Lamont,Tuomas Lappi,J. H. Lee,Y. Lee,Eugene Levin,Eugene Levin,F.-L. Lin,Vladimir Litvinenko,T. W. Ludlam,Cyrille Marquet,Zein-Eddine Meziani,Robert McKeown,Andreas Metz,Richard G. Milner,Vasiliy Morozov,Alfred H. Mueller,Berndt Müller,Berndt Müller,Dieter Müller,P. Nadel-Turonski,Hannu Paukkunen,A. Prokudin,V. Ptitsyn,Xin Qian,Jian-Wei Qiu,M. Ramsey-Musolf,T. Roser,F. Sabatié,Rodolfo Sassot,G. Schnell,Peter Schweitzer,E. P. Sichtermann,Marco Stratmann,Mark Strikman,M. Sullivan,S. Taneja,S. Taneja,T. Toll,D. Trbojevic,T. Ullrich,Raju Venugopalan,S. Vigdor,Werner Vogelsang,Christian Weiss,Bo-Wen Xiao,Feng Yuan,Y.-H. Zhang,Liang Zheng,Liang Zheng +83 more
TL;DR: In this article, the science case of an Electron-Ion Collider (EIC), focused on the structure and interactions of gluon-dominated matter, with the intent to articulate it to the broader nuclear science community, is presented.
Posted Content
Electron Ion Collider: The Next QCD Frontier - Understanding the glue that binds us all
Alberto Accardi,Alberto Accardi,Javier L. Albacete,M. Anselmino,Néstor Armesto,Elke Aschenauer,Alessandro Bacchetta,Daniël Boer,W. K. Brooks,T. P. Burton,N.-B. Chang,W.-T. Deng,W.-T. Deng,A. Deshpande,Markus Diehl,Adrian Dumitru,R. Dupré,R. Ent,Salvatore Fazio,Haiyan Gao,Vadim Guzey,H. Hakobyan,Yue Hao,D. Hasch,R. J. Holt,T. Horn,M. Huang,Andrew Hutton,C. E. Hyde,J. Jalilian-Marian,S. R. Klein,B. Kopeliovich,Yuri V. Kovchegov,K. S. Kumar,Krešimir Kumerički,M. A.C. Lamont,Tuomas Lappi,J. H. Lee,Y. Lee,Eugene Levin,Eugene Levin,F.-L. Lin,Vladimir Litvinenko,T. W. Ludlam,Cyrille Marquet,Zein-Eddine Meziani,Robert McKeown,Andreas Metz,Richard G. Milner,Vasiliy Morozov,Alfred H. Mueller,Berndt Müller,Berndt Müller,Dieter Müller,P. Nadel-Turonski,Hannu Paukkunen,A. Prokudin,V. Ptitsyn,Xin Qian,Jian-Wei Qiu,M. Ramsey-Musolf,T. Roser,F. Sabatié,Rodolfo Sassot,G. Schnell,Peter Schweitzer,E. P. Sichtermann,Marco Stratmann,Mark Strikman,M. Sullivan,S. Taneja,S. Taneja,T. Toll,D. Trbojevic,T. Ullrich,Raju Venugopalan,S. Vigdor,Werner Vogelsang,Christian Weiss,Bo-Wen Xiao,Feng Yuan,Y.-H. Zhang,Liang Zheng,Liang Zheng +83 more
TL;DR: The science case of an Electron-Ion Collider (EIC), focused on the structure and interactions of gluon-dominated matter, with the intent to articulate it to the broader nuclear science community was presented in this article.
Journal ArticleDOI
Precision Determination of the Neutron Spin Structure Function g1n
Koji Abe,T. Akagi,T. Akagi,B.D. Anderson,P.L. Anthony,R. G. Arnold,T. Averett,H. R. Band,C.M. Berisso,P. Bogorad,H. Borel,P. E. Bosted,Vincent Breton,M.J. Buenerd,Gordon D. Cates,Timothy Chupp,S. Churchwell,K. P. Coulter,M. Daoudi,P. Decowski,R. Erickson,J. Fellbaum,H. Fonvieille,R. Gearhart,V. Ghazikhanian,K. A. Griffioen,R. S. Hicks,R. Holmes,E. W. Hughes,G. Igo,Sebastien Incerti,J. R. Johnson,W. Kahl,M. Khayat,Yu. G. Kolomensky,S. E. Kuhn,K. S. Kumar,M. Kuriki,R. M. Lombard-Nelsen,D. M. Manley,J. Marroncle,T. Maruyama,T. Marvin,W. Meyer,Zein-Eddine Meziani,David Miller,Gregory S. Mitchell,M. Olson,G. A. Peterson,G. G. Petratos,R. Pitthan,R. Prepost,P. Raines,B. Raue,D. Reyna,L. S. Rochester,S. E. Rock,Michael Romalis,F. Sabatié,Gilbert Shapiro,J. Shaw,Timothy B. Smith,L. Sorrell,Paul Souder,F. Staley,S.St. Lorant,L. M. Stuart,F. Suekane,Z. M. Szalata,Y. Terrien,Alan K. Thompson,T. Toole,X. Wang,J. W. Watson,Robert C. Welsh,F.R. Wesselmann,T. R. Wright,C. C. Young,B. Youngman,H. Yuta,W.-M. Zhang,P. Zyla +81 more
TL;DR: For the kinematic range of $0.014lxl0.7$ and $1l{Q}^{2}l17(\mathrm{GeV}/c{)}^{2] 2, this article reported a precision measurement of the neutron spin structure function using deep inelastic scattering of polarized electrons.
Reaching for the horizon: The 2015 long range plan for nuclear science
Ani Aprahamian,Suzanne Lapi,Paul Mantica,Renee Fatemi,Julia Velkovska,J. F. Wilkerson,Bradley Filippone,Vincenzo Cirigliano,Jurgen Schukraft,Xiangdong Ji,Jorge Piekarewicz,Raju Venugopalan,K. M. Heeger,George M. Fuller,Michael Ramsey Musolf,Erich Ormand,Berndt Mueller,H. Caines,Augusto Macchiavelli,Andrew Hutton,Reiner Kruecken,D. C. Radford,Kate Scholberg,Peter Martin Jacobs,W. A. Zajc,Robert Atcher,Filomena Nunes,Zein-Eddine Meziani,Steven Vigdor,Michael Lisa,Matthew Shepherd,H. Schellman,Naomi C.R. Makins,John Hardy,Haiyan Gao,Krishna Rajagopal,K. S. Kumar,Hamish Robertson,D. J. Dean,Frederic Fahey,Gordon D. Cates,Zheng-Tian Lu,Guy Savard,C. A. Gagliardi,Jolie Cizewski,Martin Savage,S. E. Kuhn,Michael Wiescher,David E. Hobart,Donald Geesaman,David Hertzog,Abhay Deshpande,Patrizia Rossi,Rolf Ent,G. L. Greene,Jamie Nagle,Thomas Roser,Richard G. Milner,C. R. Howell,Witold Nazarewicz +59 more
TL;DR: In this article, the authors present the Reaching for the Horizon (ReHF) long range plan, which is based on the idea of the Wright brothers' great leap in the winds of Kitty Hawk.
Journal ArticleDOI
Next-to-leading order QCD analysis of polarized deep inelastic scattering data
K. Abe,T. Akagi,B.D. Anderson,P.L. Anthony,R. G. Arnold,T. Averett,H. R. Band,C.M. Berisso,P. Bogorad,H. Borel,P. E. Bosted,Vincent Breton,M.J. Buenerd,Gordon D. Cates,Timothy Chupp,S. Churchwell,Kevin P. Coulter,M. Daoudi,P. Decowski,R. Erickson,J. Fellbaum,H. Fonvieille,R. Gearhart,V. Ghazikhanian,K. A. Griffioen,R. S. Hicks,R. Holmes,E. W. Hughes,G. Igo,Sebastien Incerti,J. R. Johnson,W. Kahl,M. Khayat,Yu. G. Kolomensky,S. E. Kuhn,K. S. Kumar,M. Kuriki,R. M. Lombard-Nelsen,David Manley,J. Marroncle,T. Maruyama,T. Marvin,W. Meyer,Zein-Eddine Meziani,David Miller,Gregory S. Mitchell,M. Olson,G. A. Peterson,G. G. Petratos,R. Pitthan,R. Prepost,P. Raines,B. Raue,B. Raue,D. Reyna,L. S. Rochester,S. E. Rock,Michael Romalis,F. Sabatié,Gilbert Shapiro,J. Shaw,Timothy B. Smith,L. Sorrell,Paul Souder,F. Staley,S.St. Lorant,L. M. Stuart,F. Suekane,Z. M. Szalata,Y. Terrien,Alan K. Thompson,T. Toole,X. Wang,J. W. Watson,Robert C. Welsh,F.R. Wesselmann,T. R. Wright,C. C. Young,B. Youngman,H. Yuta,W.-M. Zhang,P. Zyla +81 more
TL;DR: In this article, the first moments of the polarized valence quark distributions were determined by the Bjorken sum rule and the NLO results were used to determine the Q2 dependence of the ratio g 1 F 1 and evolve the experimental data to a constant Q2 = 5 GeV2.