J
John R. Cary
Researcher at University of Colorado Boulder
Publications - 286
Citations - 8541
John R. Cary is an academic researcher from University of Colorado Boulder. The author has contributed to research in topics: Plasma & Electron. The author has an hindex of 41, co-authored 284 publications receiving 7943 citations. Previous affiliations of John R. Cary include Los Alamos National Laboratory & University of California, Berkeley.
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Plasma: at the frontier of scientific discovery
Igor Adamovich,André Anders,Scott D. Baalrud,Stuart D. Bale,Michael Bonitz,Alain J. Brizard,Troy Carter,John R. Cary,Jérôme Daligault,J. R. Danielson,Forrest Doss,James Drake,R. Paul Drake,Nathaniel J. Fisch,Cary Forest,Dustin Froula,Garudas Ganguli,S. Peter Gary,Siegfried Glenzer,John Goree,David B. Graves,Gianluca Gregori,Gregory A. Hebner,William Heidbrink,Jeffrey Hopwood,Gregory G. Howes,Chan Joshi,Igor Kaganovich,Michael Keidar,Thomas Killian,Karl Krushelnick,Matthew W. Kunz,Mark J. Kushner,D. Q. Lamb,Martin Laming,Michael E. Mauel,Julia M. Mikhailova,Philip J. Morrison,Bruce Remington,Jorge J. Rocca,Robert E. Rudd,Dmitri Ryutov,Alla S. Safronova,J. S. Sarff,Thomas Schenkel,Vladimir Shiltsev,Uri Shumlak,Gennady Shvets,Daniel Sinars,Fred Skiff,Randall K. Smith,James M. Stone,Edward Thomas,George Tynan,Anne White,Jonathan Wurtele,Stewart J. Zweben,Ellen G. Zweibel +57 more
Journal ArticleDOI
Foreword to Special Issue: Papers from the 59th Annual Meeting of the APS Division of Plasma Physics, October 23-27, 2017, Milwaukee, Wisconsin, USA
Dream beams: extreme-scale computing enabling new accelerator technologies for the energy and intensity frontiers
Warren Mori,Weiming An,Viktor Decyk,Wei Lu,Frank Tsung,Ricardo Fonseca,Samuel Julio Martins,Jorge Vieira,Luis O. Silva,Min Chen,E. Esarey,C. G. R. Geddes,Wim Leemans,Carl Schroeder,J.-L. Vay,K. Amyx,David L. Bruhwiler,John R. Cary,E. Cormier-Michel,Ben Cowan,Peter Messmer,Chengkun Huang,Thomas M. Antonsen +22 more
TL;DR: In this article, the authors discuss how large scale simulations using state-of-the-art codes have played and will continue to play a central role in the development of plasma-based acceleration which is currently the leading candidate for a new accelerator technology.
Posted Content
Electron bunch generation from a plasma photocathode
Aihua Deng,Oliver Karger,T. Heinemann,Alexander Knetsch,Paul Scherkl,Grace Manahan,A. Beaton,D. Ullmann,Gregor Wittig,A. F. Habib,Y. Xi,Michael Litos,Brendan O'Shea,Spencer Gessner,Christine Clarke,S. Z. Green,C. A. Lindstrøm,Erik Adli,Rafal Zgadzaj,Michael C. Downer,Gerard Andonian,Alex Murokh,David L. Bruhwiler,John R. Cary,Mark Hogan,Vitaly Yakimenko,James Rosenzweig,Bernhard Hidding +27 more
TL;DR: Deng et al. as mentioned in this paper demonstrate optically triggered injection and acceleration of electron bunches, generated in a multi-component hydrogen and helium plasma employing a spatially aligned and synchronized laser pulse, which decouples injection from wake excitation by liberating tunnelionized helium electrons directly inside the plasma cavity, where these cold electrons are then rapidly boosted to relativistic velocities.
Journal ArticleDOI
Computing the Paschen curve for argon with speed-limited particle-in-cell simulation
TL;DR: In this article, a speed-limited particle-in-cell (SLPIC) simulation method was proposed to simulate an electron cascade across an argon-filled capacitor, including electron neutral ionization, electron neutral elastic collisions, electron-neutral excitation, and ion-induced secondary-electron emission.