Gamma-rays from harmonically resonant betatron oscillations in a plasma wake
Silvia Cipiccia,M. R. Islam,Bernhard Ersfeld,Richard Shanks,Enrico Brunetti,Gregory Vieux,X. Yang,Riju C. Issac,S. M. Wiggins,Gregor H. Welsh,Maria Pia Anania,Dzmitry Maneuski,R. A. Montgomery,G. D. Smith,M. Hoek,David Hamilton,Nuno Lemos,Dan Symes,P. P. Rajeev,Val O. Shea,João Dias,Dino A. Jaroszynski +21 more
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The radiation produced when an intense laser interacts with a solid target could provide a cheaper source of X-rays to synchrotrons and free-electron lasers.Abstract:
The radiation produced when an intense laser interacts with a solid target could provide a cheaper source of X-rays to synchrotrons and free-electron lasers. But they can also produce short bursts of gamma rays, whereas synchrotrons do not.read more
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Extremely high-intensity laser interactions with fundamental quantum systems
TL;DR: In this article, a review of recent investigations on high-energy processes within the realm of relativistic quantum dynamics, quantum electrodynamics, and nuclear and particle physics, occurring in extremely intense laser fields is presented.
Journal ArticleDOI
Quasi-monoenergetic laser-plasma acceleration of electrons to 2 GeV
Xiaoming Wang,Rafal Zgadzaj,N. Fazel,Zhengyan Li,S. A. Yi,Xi Zhang,W. Henderson,Y. Y. Chang,R. Korzekwa,Hai-En Tsai,Chih-Hao Pai,Hernan Quevedo,Gilliss Dyer,Erhard Gaul,Mikael Martinez,Aaron C Bernstein,T. Borger,M. Spinks,Michael E Donovan,V. Khudik,Gennady Shvets,Todd Ditmire,Michael W Downer +22 more
TL;DR: Simulations indicate that with improvements in the laser-pulse focus quality, acceleration to nearly 10 GeV should be possible with the available pulse energy, and the principal physical barriers to multi-gigaelectronvolt acceleration are overcome.
Journal ArticleDOI
All-optical Compton gamma-ray source
K. Ta Phuoc,Sebastien Corde,Cédric Thaury,Victor Malka,A. Tafzi,Jean-Philippe Goddet,R. C. Shah,Stéphane Sebban,Antoine Rousse +8 more
TL;DR: In this paper, the authors demonstrate a Compton-based electromagnetic source based on a laser-plasma accelerator and a plasma mirror, which generates a broadband spectrum of X-rays and is 10,000 times brighter than Compton X-ray sources based on conventional accelerators.
Journal ArticleDOI
Developments in laser-driven plasma accelerators
TL;DR: Laser-driven plasma accelerators have the potential to replace existing particle accelerators, as they are highly efficient systems that are orders of magnitude smaller than conventional PAs as discussed by the authors.
Journal ArticleDOI
Applications of laser wakefield accelerator-based light sources
TL;DR: In this article, a review of light sources from relativistic electrons produced by laser-wakefield accelerators is presented, and their potential applications are identified in a broad range of fields: medical and biological applications, military, defense and industrial applications.
References
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S. Agostinelli,John Allison,K. Amako,J. Apostolakis,Henrique Araujo,P. Arce,Makoto Asai,D. Axen,S. Banerjee,G. Barrand,F. Behner,Lorenzo Bellagamba,J. Boudreau,L. Broglia,A. Brunengo,H. Burkhardt,Stephane Chauvie,J. Chuma,R. Chytracek,Gene Cooperman,G. Cosmo,P. V. Degtyarenko,Andrea Dell'Acqua,G. Depaola,D. Dietrich,R. Enami,A. Feliciello,C. Ferguson,H. Fesefeldt,Gunter Folger,Franca Foppiano,Alessandra Forti,S. Garelli,S. Gianì,R. Giannitrapani,D. Gibin,J. J. Gomez Y Cadenas,I. González,G. Gracia Abril,G. Greeniaus,Walter Greiner,Vladimir Grichine,A. Grossheim,Susanna Guatelli,P. Gumplinger,R. Hamatsu,K. Hashimoto,H. Hasui,A. Heikkinen,A. S. Howard,Vladimir Ivanchenko,A. Johnson,F.W. Jones,J. Kallenbach,Naoko Kanaya,M. Kawabata,Y. Kawabata,M. Kawaguti,S.R. Kelner,Paul R. C. Kent,A. Kimura,T. Kodama,R. P. Kokoulin,M. Kossov,Hisaya Kurashige,E. Lamanna,Tapio Lampén,V. Lara,Veronique Lefebure,F. Lei,M. Liendl,W. S. Lockman,Francesco Longo,S. Magni,M. Maire,E. Medernach,K. Minamimoto,P. Mora de Freitas,Yoshiyuki Morita,K. Murakami,M. Nagamatu,R. Nartallo,Petteri Nieminen,T. Nishimura,K. Ohtsubo,M. Okamura,S. W. O'Neale,Y. Oohata,K. Paech,J Perl,Andreas Pfeiffer,Maria Grazia Pia,F. Ranjard,A.M. Rybin,S.S Sadilov,E. Di Salvo,Giovanni Santin,Takashi Sasaki,N. Savvas,Y. Sawada,Stefan Scherer,S. Sei,V. Sirotenko,David J. Smith,N. Starkov,H. Stoecker,J. Sulkimo,M. Takahata,Satoshi Tanaka,E. Tcherniaev,E. Safai Tehrani,M. Tropeano,P. Truscott,H. Uno,L. Urbán,P. Urban,M. Verderi,A. Walkden,W. Wander,H. Weber,J.P. Wellisch,Torre Wenaus,D.C. Williams,Douglas Wright,T. Yamada,H. Yoshida,D. Zschiesche +126 more
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Laser Electron Accelerator
Toshiki Tajima,John M. Dawson +1 more
TL;DR: In this paper, an intense electromagnetic pulse can create a weak of plasma oscillations through the action of the nonlinear ponderomotive force, and electrons trapped in the wake can be accelerated to high energy.
Journal ArticleDOI
A laser-plasma accelerator producing monoenergetic electron beams
Jérôme Faure,Y. Glinec,Alexander Pukhov,Sergey Kiselev,Sergey Gordienko,Erik Lefebvre,Jean-Philippe Rousseau,Frédéric Burgy,Victor Malka +8 more
TL;DR: It is demonstrated that this randomization of electrons in phase space can be suppressed and that the quality of the electron beams can be dramatically enhanced.
Journal ArticleDOI
High-quality electron beams from a laser wakefield accelerator using plasma-channel guiding
C. G. R. Geddes,C. G. R. Geddes,Cs. Toth,van J Jeroen Tilborg,van J Jeroen Tilborg,Eric Esarey,Carl Schroeder,David L. Bruhwiler,Chet Nieter,John R. Cary,Wim Leemans +10 more
TL;DR: A laser accelerator that produces electron beams with an energy spread of a few per cent, low emittance and increased energy (more than 109 electrons above 80 MeV) and opens the way for compact and tunable high-brightness sources of electrons and radiation.