2 Papers
E. Rollinde is an academic researcher from Thomas Jefferson National Accelerator Facility. The author has contributed to research in topics: Nuclear transparency & Cross section (physics). The author has an hindex of 2, co-authored 2 publications. Previous affiliations of E. Rollinde include College of William & Mary.
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Papers
Measurements of electron-proton elastic cross sections for 0.4 < Q(2) < 5.5 (GeV/c)(2)
M. E. Christy,A. Ahmidouch,C. S. Armstrong,John Arrington,R. Asaturyan,Stephen Avery,O. K. Baker,O. K. Baker,Douglas H Beck,H. P. Blok,C. Bochna,W. U. Boeglin,W. U. Boeglin,P. Bosted,M. Bouwhuis,H. Breuer,D. S. Brown,A. Bruell,R. D. Carlini,N. S. Chant,A. Cochran,L. Cole,S. Danagoulian,Donal Day,J. A. Dunne,Dipanwita Dutta,Rolf Ent,H. C. Fenker,B. D. Fox,L. Gan,Haiyan Gao,K. Garrow,D. Gaskell,D. Gaskell,A. Gasparian,D. F. Geesaman,Paul Gueye,M. Harvey,R. J. Holt,X. Jiang,C. E. Keppel,C. E. Keppel,E. R. Kinney,Y. Liang,Y. Liang,Wolfgang Lorenzon,A. Lung,Pete Markowitz,Pete Markowitz,J. W. Martin,K. McIlhany,D. McKee,D. Meekins,M. A. Miller,Ross Milner,J. H. Mitchell,H. Mkrtchyan,B. Mueller,Alan M. Nathan,G. Niculescu,I. Niculescu,Thomas O'Neill,V. Papavassiliou,V. Papavassiliou,S. F. Pate,S. F. Pate,R. B. Piercey,D. H. Potterveld,Ronald Ransome,J. Reinhold,J. Reinhold,E. Rollinde,E. Rollinde,P. G. Roos,A. J. Sarty,R. Sawafta,E. Schulte,E. Segbefia,Curtis Smith,S. Stepanyan,S. Strauch,V. Tadevosyan,L. G. Tang,L. G. Tang,Raphael Noel Tieulent,Raphael Noel Tieulent,A. Uzzle,W. F. Vulcan,S. A. Wood,F. Xiong,L. Yuan,M. Zeier,B. Zihlmann,V. Ziskin +93 more
Nuclear transparency from quasielastic A(e,e′p) reactions up to Q2 = 8.1 (GeV/c)2
K. Garrow,D. McKee,A. Ahmidouch,C. S. Armstrong,J. Arrington,R. Asaturyan,Stephen Avery,O. K. Baker,O. K. Baker,Douglas H Beck,H. P. Blok,C. Bochna,W. U. Boeglin,W. U. Boeglin,P. E. Bosted,P. E. Bosted,M. Bouwhuis,H. Breuer,D. S. Brown,A. Bruell,R. D. Carlini,N. S. Chant,A. Cochran,L. Cole,S. Danagoulian,Donal Day,J. A. Dunne,Dipanwita Dutta,Rolf Ent,H. C. Fenker,B. D. Fox,L. Gan,D. Gaskell,D. Gaskell,A. Gasparian,Haiyan Gao,D. F. Geesaman,Ronald Gilman,Ronald Gilman,Paul Gueye,M. Harvey,R. J. Holt,R. J. Holt,X. Jiang,C. E. Keppel,C. E. Keppel,E. R. Kinney,Y. Liang,Y. Liang,Wolfgang Lorenzon,A. Lung,D. J. Mack,Pete Markowitz,Pete Markowitz,J. W. Martin,K. McIlhany,D. Meekins,D. Meekins,M. A. Miller,Ross Milner,J. H. Mitchell,H. Mkrtchyan,B. Mueller,Alan M. Nathan,G. Niculescu,I. Niculescu,Thomas O'Neill,V. Papavassiliou,V. Papavassiliou,S. F. Pate,S. F. Pate,R. B. Piercey,D. H. Potterveld,Ronald Ransome,Joerg Reinhold,Joerg Reinhold,E. Rollinde,E. Rollinde,P. G. Roos,A. J. Sarty,A. J. Sarty,R. Sawafta,E. Schulte,E. Segbefia,Curtis Smith,S. Stepanyan,S. Strauch,V. Tadevosyan,L. G. Tang,L. G. Tang,Raphael Noel Tieulent,Raphael Noel Tieulent,A. Uzzle,W. F. Vulcan,S. A. Wood,F. Xiong,L. Yuan,M. Zeier,B. Zihlmann,V. Ziskin +99 more
TL;DR: In this paper, the quasielastic reaction was studied on targets of deuterium, carbon, and iron up to a value of momentum transfer $Q^2$ of 8.1 (GeV/c)$^2 ).