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H. Anklin
Researcher at Oregon State University
Publications - Â 5
Citations - Â 523
H. Anklin is an academic researcher from Oregon State University. The author has contributed to research in topics: Pion & Form factor (quantum field theory). The author has an hindex of 5, co-authored 5 publications receiving 473 citations.
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Journal ArticleDOI
Charged pion form factor between Q2=0.60 and 2.45 GeV2. II. Determination of, and results for, the pion form factor
G. M. Huber,H. P. Blok,Tanja Horn,E. J. Beise,D. Gaskell,D. J. Mack,V. Tadevosyan,J. Volmer,D. Abbott,K. A. Aniol,H. Anklin,C. S. Armstrong,J. Arrington,Ketevi Assamagan,Stephen Avery,Oliver Keith Baker,Brynle Barrett,C. Bochna,W.U. Boeglin,E. J. Brash,H. Breuer,C. C. Chang,N. S. Chant,M. E. Christy,J. A. Dunne,T. Eden,Rolf Ent,H. C. Fenker,E. F. Gibson,Ronald Gilman,K. Gustafsson,W. Hinton,R. J. Holt,H. E. Jackson,S. Jin,M. K. Jones,C. E. Keppel,P. H. Kim,W. Kim,P. M. King,Andreas Klein,D. Koltenuk,V. Kovaltchouk,M. Liang,Jin Liu,G. J. Lolos,A. F. Lung,D. J. Margaziotis,Pete Markowitz,A. Matsumura,D. McKee,D. G. Meekins,John C. Mitchell,Toshinobu Miyoshi,H. Mkrtchyan,B. Mueller,G. Niculescu,I. Niculescu,Y. Okayasu,Lubomir Pentchev,C. F. Perdrisat,D. Pitz,D. H. Potterveld,V. A. Punjabi,L. M. Qin,P. E. Reimer,J. Reinhold,J. Roche,P. G. Roos,A. J. Sarty,I. K. Shin,Geoffrey Smith,S. Stepanyan,L. G. Tang,V. Tvaskis,R. van der Meer,K. Vansyoc,D. van Westrum,S. Vidakovic,W. F. Vulcan,Glen A. Warren,S. A. Wood,C. Xu,C. Yan,W. Zhao,X. Zheng,B. Zihlmann +86 more
TL;DR: In this paper, a detailed description of the extraction of the charged pion form factor from electroproduction data obtained recently at Jefferson Lab is presented, with particular focus given to the dominant uncertainties in this procedure.
Journal ArticleDOI
Determination of the pion charge form factor for Q 2 = 0.60 1.60 GeV 2
V. Tadevosyan,H. P. Blok,G. M. Huber,D. Abbott,H. Anklin,C. S. Armstrong,J. Arrington,Ketevi Assamagan,Stephen Avery,Oliver Keith Baker,C. Bochna,E. J. Brash,H. Breuer,N. S. Chant,J. A. Dunne,T. Eden,Rolf Ent,D. Gaskell,Ronald Gilman,K. Gustafsson,W. Hinton,H. E. Jackson,M. K. Jones,C. E. Keppel,P. H. Kim,W. Kim,Andreas Klein,D. Koltenuk,M. Liang,G. J. Lolos,A. F. Lung,D. J. Mack,D. McKee,D. G. Meekins,John C. Mitchell,H. Mkrtchyan,B. Mueller,G. Niculescu,I. Niculescu,D. Pitz,D. H. Potterveld,L. M. Qin,J. Reinhold,I. K. Shin,S. Stepanyan,L. G. Tang,R. van der Meer,K. Vansyoc,D. van Westrum,J. Volmer,W. F. Vulcan,S. A. Wood,C. Yan,W. Zhao,B. Zihlmann +54 more
TL;DR: In this article, the data analysis for the reaction {sup 1}H(e,e{sup '}{pi}{sup +})n, which was used to determine values for the charged pion form factor F{sub {pi}} for values of Q{sup 2}= 0.6-1.6 GeV {sup 2}, has been repeated with careful inspection of all steps and special attention to systematic uncertainties.
Journal ArticleDOI
Charged pion form factor between $Q^2$=0.60 and 2.45 GeV$^2$. I. Measurements of the cross section for the ${^1}$H($e,e'\pi^+$)$n$ reaction
H. P. Blok,Tanja Horn,G. M. Huber,E. J. Beise,D. Gaskell,D. J. Mack,V. Tadevosyan,J. Volmer,D. Abbott,K. A. Aniol,H. Anklin,C. S. Armstrong,J. Arrington,Ketevi Assamagan,Stephen Avery,Oliver Keith Baker,Brynle Barrett,C. Bochna,W.U. Boeglin,E. J. Brash,H. Breuer,C. C. Chang,N. S. Chant,M. E. Christy,J. A. Dunne,T. Eden,Rolf Ent,H. C. Fenker,E. F. Gibson,Ronald Gilman,K. Gustafsson,W. Hinton,R. J. Holt,H. E. Jackson,S. Jin,M. K. Jones,C. E. Keppel,P. H. Kim,W. Kim,P. M. King,Andreas Klein,D. Koltenuk,V. Kovaltchouk,M. Liang,Jin Liu,G. J. Lolos,A. F. Lung,D. J. Margaziotis,Pete Markowitz,A. Matsumura,D. McKee,D. G. Meekins,John C. Mitchell,Toshinobu Miyoshi,H. Mkrtchyan,B. Mueller,G. Niculescu,I. Niculescu,Y. Okayasu,Lubomir Pentchev,C. F. Perdrisat,D. Pitz,D. H. Potterveld,V. A. Punjabi,L. M. Qin,P. E. Reimer,J. Reinhold,J. Roche,P. G. Roos,A. J. Sarty,I. K. Shin,Geoffrey Smith,S. Stepanyan,L. G. Tang,V. Tvaskis,R. van der Meer,K. Vansyoc,D. van Westrum,S. Vidakovic,W. F. Vulcan,Glen A. Warren,S. A. Wood,C. Xu,C. Yan,W. Zhao,X. Zheng,B. Zihlmann +86 more
TL;DR: In this article, the authors measured cross sections for the reaction {sup 1}H(e,e'{Pi}{sup +})n were measured in Hall C at Thomas Jefferson National Accelerator Facility (JLab) using the high-intensity continuous electron beam accelerator facility (CEBAF) to determine the charged pion form factor.
Posted Content
New Results for the Charged Pion Electromagnetic Form Factor
J. Volmer,D. Abbott,H. Anklin,C. S. Armstrong,J. Arrington,Ketevi Assamagan,Stephen Avery,O. K. Baker,H. P. Blok,C. Bochna,E. J. Brash,H. Breuer,N. S. Chant,J. A. Dunne,T. Eden,Rolf Ent,D. Gaskell,Ronald Gilman,K. Gustafsson,W. Hinton,G. M. Huber,H. E. Jackson,M. K. Jones,C. E. Keppel,P. H. Kim,W. Kim,Avraham Klein,D. Koltenuk,M. Liang,G. J. Lolos,A. F. Lung,D. J. Mack,D. McKee,D. G. Meekins,John C. Mitchell,H. Mkrtchyan,B. Mueller,G. Niculescu,I. Niculescu,D. Pitz,D. H. Potterveld,L. M. Qin,J. Reinhold,I. K. Shin,S. Stepanyan,V. Tadevosyan,L. G. Tang,R. L.J. van der Meer,K. Vansyoc,D. van Westrum,W. F. Vulcan,S. A. Wood,C. Yan,W. Zhao,B. Zihlmann +54 more
TL;DR: In this article, the pion charge form factor in the longitudinal cross section of the reaction 1H(e,eprime pi+)n was measured in the momentum transfer region Q2=0.6-1.6 (GeV/c)**2 at a value of the invariant mass W=1.95 GeV.
Journal ArticleDOI
Longitudinal Electroproduction of Charged Pions from 1H, 2H, and 3He
D. Gaskell,A. Ahmidouch,P. Ambrozewicz,H. Anklin,J. Arrington,K. Assamagan,Stephen Avery,K. Bailey,O. K. Baker,S. Beedoe,B. Beise,H. Breuer,D. S. Brown,R. Carlini,J. Cha,N. Chant,A. Cowley,S. Danagoulian,D. De Schepper,James Dunne,D. Dutta,R. Ent,L. Gan,A. Gasparian,D. F. Geesaman,Ronald Gilman,C. Glashausser,P. Gueye,M. Harvey,O. Hashimoto,W. Hinton,G. Hofman,C. Jackson,H. E. Jackson,C. Keppel,E. Kinney,D. Koltenuk,G. Kyle,A. Lung,D. Mack,D. McKee,J. Mitchell,H. Mkrtchyan,B. Mueller,G. Niculescu,I. Niculescu,T. G. O'Neill,V. Papavassiliou,D. Potterveld,J. Reinhold,P. Roos,R. Sawafta,R. Segel,S. Stepanyan,V. Tadevosyan,T. Takahashi,L. Tang,B. Terburg,D. Van Westrum,J. Volmer,T. P. Welch,S. Wood,L. Yuan,B. Zeidman,B. Zihlmann +64 more
TL;DR: Comparisons of the longitudinal cross section target ratios to a quasifree calculation reveal a significant suppression in (3)He at W = 1.60 GeV, which is consistent with simple estimates of the effect of nuclear pion currents, but are also consistent with pure quAsifree production.