Demonstration of high-trapping efficiency and narrow energy spread in a laser-driven accelerator

Demonstration of high-trapping efficiency and narrow energy spread in a laser-driven accelerator

Laser-driven electron accelerators (laser linacs) offer the potential for enabling much more economical and compact devices. However, the development of practical and efficient laser linacs requires accelerating a large ensemble of electrons together ("trapping") while keeping their energy...

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Bibliographic Details
Published in:Physical review letters Vol. 92; no. 5; p. 054801
Main Authors: Kimura, W D, Babzien, M, Ben-Zvi, I, Campbell, L P, Cline, D B, Dilley, C E, Gallardo, J C, Gottschalk, S C, Kusche, K P, Pantell, R H, Pogorelsky, I V, Quimby, D C, Skaritka, J, Steinhauer, L C, Yakimenko, V, Zhou, F
Format: Journal Article
Language:English
Published: United States 06-02-2004
Online Access:Get full text
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Summary:Laser-driven electron accelerators (laser linacs) offer the potential for enabling much more economical and compact devices. However, the development of practical and efficient laser linacs requires accelerating a large ensemble of electrons together ("trapping") while keeping their energy spread small. This has never been realized before for any laser acceleration system. We present here the first demonstration of high-trapping efficiency and narrow energy spread via laser acceleration. Trapping efficiencies of up to 80% and energy spreads down to 0.36% (1 sigma) were demonstrated.
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ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.92.054801