J
James Rosenzweig
Researcher at University of California, Los Angeles
Publications - 164
Citations - 4994
James Rosenzweig is an academic researcher from University of California, Los Angeles. The author has contributed to research in topics: Beam (structure) & Electron. The author has an hindex of 34, co-authored 154 publications receiving 4508 citations. Previous affiliations of James Rosenzweig include ASTRON & Argonne National Laboratory.
Papers
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Journal ArticleDOI
Acceleration and focusing of electrons in two-dimensional nonlinear plasma wake fields
TL;DR: If the beam is dense enough to eject nearly all of the plasma electrons from the beam channel, then the short-range wake fields are of excellent quality for acceleration and focusing of electron beams.
Journal ArticleDOI
Dielectric laser accelerators
R. Joel England,R. J. Noble,Karl Bane,David H. Dowell,C. Ng,James E. Spencer,Sami Tantawi,Ziran Wu,Robert L. Byer,E. A. Peralta,K. Soong,Chia-Ming Chang,Behnam Montazeri,Stephen J. Wolf,Benjamin M. Cowan,Jay W. Dawson,Wei Gai,Peter Hommelhoff,Yen-Chieh Huang,Chunguang Jing,C. McGuinness,Robert B. Palmer,Brian Naranjo,James Rosenzweig,Gil Travish,Amit Mizrahi,Levi Schächter,C.M.S. Sears,Gregory R. Werner,R. B. Yoder +29 more
TL;DR: In this paper, the authors reviewed the dielectric laser acceleration (DLA) scheme operating at typical laser pulse lengths of 1 to 1 ps, where the laser damage fluences correspond to peak surface electric fields in the Ω{GV}/\mathrm{m} regime.
Journal ArticleDOI
First observation of self-amplified spontaneous emission in a free-electron laser at 109 nm wavelength
J. Andruszkow,B. Aune,Valeri Ayvazyan,N. Baboi,R. Bakker,V. Balakin,D. Barni,A. Bazhan,M. Bernard,A. Bosotti,J. C. Bourdon,W. Brefeld,R. Brinkmann,S. Buhler,Jean-Paul Carneiro,M. Castellano,P. Castro,L. Catani,S. Chel,Y. Cho,S. Choroba,E. R. Colby,W. Decking,P.K. Den Hartog,M. Desmons,Martin Dohlus,D. A. Edwards,H. T. Edwards,Bart Faatz,J. Feldhaus,M. Ferrario,Michael J. Fitch,Klaus Flöttmann,M. Fouaidy,A. Gamp,T. Garvey,Ch. Gerth,M. Geitz,Efim Gluskin,V. Gretchko,U. Hahn,W. H. Hartung,D. Hubert,M. Hüning,R. Ischebek,M. Jablonka,J. M. Joly,M. Juillard,Tomas Junquera,P. Jurkiewicz,A. Kabel,J. Kahl,H. Kaiser,Thorsten Kamps,V. V. Katelev,J. L. Kirchgessner,M. Körfer,L. Kravchuk,G. Kreps,Jacek Krzywinski,T. Lokajczyk,R. Lange,B. Leblond,M. Leenen,J. Lesrel,Matthias Liepe,A. Liero,T. Limberg,R. Lorenz,Lu Hui Hua,Lu Fu Hai,C. Magne,M. Maslov,G. Materlik,A. Matheisen,J. Menzel,Paolo Michelato,W.-D. Möller,A. Mosnier,U. C. Müller,Olivier Napoly,A. Novokhatski,M. Omeich,Hasan Padamsee,Carlo Pagani,F. Peters,B. Petersen,Paolo Pierini,J. Pflüger,Philippe Piot,B. Phung Ngoc,Lukasz Plucinski,D. Proch,K. Rehlich,Sven Reiche,D. Reschke,I. Reyzl,James Rosenzweig,Jörg Rossbach,S. Roth,E.L. Saldin,Wolfgang Sandner,Z. Sanok,Holger Schlarb,Gerhard Schmidt,Peter Schmüser,Jochen R. Schneider,Evgeny Schneidmiller,H. J. Schreiber,Siegfried Schreiber,Petra Schütt,Jacek Sekutowicz,Luca Serafini,Daniele Sertore,Stefan Setzer,S. Simrock,B. Sonntag,B. Sparr,Frank Stephan,V. Sytchev,S. Tazzari,F. Tazzioli,Maury Tigner,Martin Timm,M. Tonutti,Emil Trakhtenberg,Rolf Treusch,D. Trines,V. Verzilov,T. Vielitz,V. Vogel,G. V. Walter,Rainer Wanzenberg,Thomas Weiland,H. Weise,J. Weisend,M. Wendt,M. Werner,Meredith M. White,Ingo Will,S. Wolff,Mikhail Yurkov,K. Zapfe,P. Zhogolev,F. Zhou +144 more
TL;DR: The first observation of self-amplified spontaneous emission (SASE) in a free-electron laser (FEL) in the vacuum ultraviolet regime at 109 nm wavelength is presented.
Journal ArticleDOI
Envelope analysis of intense relativistic quasilaminar beams in rf photoinjectors:mA theory of emittance compensation
Luca Serafini,James Rosenzweig +1 more
TL;DR: In this paper, an analytical description for the transverse dynamics of relativistic, space-chargedominated beams undergoing strong acceleration, such as those typically produced by rf photoinjectors is provided.
Journal ArticleDOI
Plasma electron trapping and acceleration in a plasma wake field using a density transition.
TL;DR: A new scheme for plasma electron injection into an acceleration phase of a plasma wake field is presented, in which a single, short electron pulse travels through an underdense plasma with a sharp, localized, downward density transition.