Laser wakefield acceleration driven by ATF CO2 laser (STELLA-LW)

被引:0
|
作者
Kimura, WD [1 ]
Andreev, NE [1 ]
Babzien, M [1 ]
Ben-Zvi, I [1 ]
Cline, DB [1 ]
Dilley, CE [1 ]
Gottschalk, SC [1 ]
Hooker, SA [1 ]
Kusche, KP [1 ]
Kuznetsov, SV [1 ]
Pantell, RH [1 ]
Pavlishin, IV [1 ]
Pogorelsky, IV [1 ]
Pogosova, AA [1 ]
Steinhauer, LC [1 ]
Ting, A [1 ]
Yakimenko, V [1 ]
Zigler, A [1 ]
Zhou, F [1 ]
机构
[1] STI Optron Inc, Bellevue, WA 98004 USA
来源
ADVANCED ACCELERATOR CONCEPTS | 2004年 / 737卷
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中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
A new experiment has begun that builds upon the successful Staged Electron Laser Acceleration (STELLA) experiment, which demonstrated high-trapping efficiency and narrow energy spread in a staged laser-driven accelerator. STELLA was based upon inverse free electron lasers (IFEL); the new experiment, called STELLA-LW, is based upon laser wakefield acceleration (LWFA). The first phase of STELLA-LW will be to demonstrate LWFA in a capillary discharge driven by the Brookhaven National Laboratory Accelerator Test Facility (ATF) terawatt CO2 laser beam. This will be the first time LWFA is conducted at 10.6-mum laser wavelength. It will also be operating in an interesting pseudo-resonant regime where the laser pulse length is too long for resonant LWFA, but too short for self-modulated LWFA. Analysis has shown that in pseudo-resonant LWFA, pulse-steepening effects occur on the laser pulse that permits generation of strong wakefields. Various approaches are being explored for the capillary discharge including polypropylene and hydrogen-filled capillaries. Planned diagnostics for the experiment include coherent Thomson scattering (CTS) to detect the wakefield generation. This will be one of the first times CTS is used on a capillary discharge.
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页码:534 / 540
页数:7
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