J
J.E. Clendenin
Researcher at Stanford University
Publications - 118
Citations - 2130
J.E. Clendenin is an academic researcher from Stanford University. The author has contributed to research in topics: Particle accelerator & Electron. The author has an hindex of 17, co-authored 118 publications receiving 2066 citations. Previous affiliations of J.E. Clendenin include Yale University & SLAC National Accelerator Laboratory.
Papers
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Journal ArticleDOI
Parity non-conservation in inelastic electron scattering
C. Y. Prescott,W. B. Atwood,R.L.A. Cottrell,DeStaebler Hc,E. L. Garwin,A. Gonidec,Roger H. Miller,L. S. Rochester,T. Sato,D. J. Sherden,C. K. Sinclair,S. Stein,R. E. Taylor,J.E. Clendenin,V. W. Hughes,Noboru Sasao,K. P. Schüler,M. Borghini,K. Lübelsmeyer,W. Jentschke +19 more
TL;DR: In this paper, parity violating asymmetries in the inelastic scattering of longitudinally polarized electrons from deuterium and hydrogen were measured, and the asymmetry is (−9.5 × 10−5)Q2 with statistical and systematic uncertainties each about 10%.
Journal ArticleDOI
New measurement of deep-inelastic e-p asymmetries
Günter Baum,M. R. Bergström,P. R. Bolton,J.E. Clendenin,N. R. DeBotton,Satish Dhawan,Y.-N. Guo,V. R. Harsh,V. W. Hughes,Kiminori Kondo,M. S. Lubell,Z. L. Mao,Roger H. Miller,S. Miyashita,K. Morimoto,U. Moser,I. Nakano,R. F. Oppenheim,D. A. Palmer,L. Panda,Wilhelm Raith,Noboru Sasao,K. P. Schüler,M. L. Seely,Paul Souder,S.St. Lorant,K. Takikawa,M. Werlen +27 more
TL;DR: In this article, the spin-dependent asymmetries have been measured in deepinelastic scattering of longitudinally polarized electrons by long-polarized protons at a scattering angle of 10/sup 0/ and for incident energies of 16.2 and 22.7 GeV.
Journal ArticleDOI
Deep Inelastic Scattering of Polarized Electrons by Polarized Protons
M. J. Alguard,W. W. Ash,Günter Baum,J.E. Clendenin,P. S. Cooper,D. H. Coward,R. D. Ehrlich,A. Etkin,Vernon W. Hughes,H. Kobayakawa,Kiminori Kondo,M. S. Lubell,Roger H. Miller,D. A. Palmer,W. Raith,Noboru Sasao,K. P. Schüler,D. J. Sherden,C. K. Sinclair,Paul Souder +19 more
TL;DR: In this article, the asymmetry in deep inelastic scattering of longitudinally polarized electrons by unpolarized nucleons was investigated and the antiparallel-parallel asymmetries were positive and large in agreement with predictions of quarkparton models of the proton.
ReportDOI
Linac coherent light source (LCLS) conceptual design report
J. Arthur,William Graves,M. Renner,James Rosenzweig,G. Faigel,Zhirong Huang,Michael Wulff,Janos Hajdu,I. Evans,K. Kulander,Andrew Y. Ng,Jianwei Miao,D.H. Dowell,Janos Kirz,David Sayre,P. Ilinski,Roger Falcone,D. Imre,Linda Young,P. Emma,C.V. Robinson,A. Zewail,Phillip Bucksbaum,Otto Landen,Arthur Toor,R.W. Lee,G. Mulhollan,Isaac Vasserman,J.C. Gauthier,Elizabeth Moog,Gennady Stupakov,John Schmerge,Richard Neutze,D. Schneider,D. Dungan,C. Limborg,A.S. Fisher,P.R. Bolton,R. Yotam,L. Klaisner,Heinz-Dieter Nuhn,R. Ruland,R.R. Freeman,Efim Gluskin,Xijie Wang,Alex H. Lumpkin,S. Mochrie,Philip A. Anfinrud,Francesco Sette,Chris Jacobsen,R. Humphry,M. Xie,Mark Woodley,Keith A. Nelson,V. Bharadwaj,J. Galayda,D. Saenz,Emil Trakhtenberg,Luca Serafini,G. Ruocco,Stephen V. Milton,Edgar Weckert,Carl Schroeder,E.I. Lindau,Patrick Krejcik,Richard M. Bionta,S. Sasaki,Roman Tatchyn,D. Nguyen,Jerome B. Hastings,G. Materlik,Ilan Ben-Zvi,Mark Sutton,Ciaran Lewis,Justin Wark,Glenn Decker,David Riley,P.K. Den Hartog,Claudio Pellegrini,Dennis Palmer,S. Dierker,M. Ferrario,S. K. Sinha,R. C. Cauble,Keith O. Hodgson,William M. Fawley,S. J. Rose,D. Waltz,J. M. Paterson,J.C. Frisch,B. Stephenson,R.E. Kirby,Herman Winick,Abraham Szöke,K.J. Kim,A. Wootton,Max Cornacchia,J.E. Clendenin,D. van der Spoel,C.C. Kao,Michael Borland,Sven Reiche,Nikolay Vinokurov,S. M. Gierman,Patrick Audebert,Karl Bane +105 more
TL;DR: The Linac Coherent Light Source (LCLS) as mentioned in this paper is a free-electron-laser (FEL) R&D facility operating in the wavelength range 1.5-15 angstrom, which utilizes the SLAC linac and produces sub-picosecond pulses of short wavelength x-rays with very high peak brightness and full transverse coherence.
Journal ArticleDOI
The Stanford linear accelerator polarized electron source
R. Alley,H. Aoyagi,J.E. Clendenin,J.C. Frisch,C.L. Garden,E. Hoyt,R.E. Kirby,L. Klaisner,A. Kulikov,Roger H. Miller,G. Mulhollan,C. Y. Prescott,P. Sáez,D.C. Schultz,H. Tang,Joshua J. Turner,K. Witte,M. Woods,A.D. Yeremian,Max Zolotorev +19 more
TL;DR: The Stanford 3-km linear accelerator at SLAC has operated exclusively since early 1992 using a polarized electron beam for its high-energy physics programs as mentioned in this paper, and the electron polarization at the source is > 80%.