Fast pulsed cluster jet

R. Madden, P. Coleman, M. Krishnan
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引用次数: 0

Abstract

Summary form only given. Short burst, ultrafast laser pulses interact intensely with matter to generate beams of secondary radiation such as coherent x-rays via high harmonic generation, electron bunches via laser wakefield acceleration, and protons via laser-driven ion acceleration. These secondary radiation sources have applications in biological imaging, medical diagnostics and treatment, and nondestructive evaluation. The emerging field of laser-plasma acceleration (LPA) has demonstrated electron accelerators with unprecedented electric field gradients. Supersonic, highly collimated gas jets and gas-filled capillary discharge waveguides are two primary targets of choice for LPA. A new LPA accelerated beam energy record of >2 GeV has been recorded using the Texas Petawatt laser (150 J) focused into a 7 cm He gas cell. The electron beams were highly-collimated (<;1 mrad divergence), containing high charge (>1 nC), and had a broad energy spectrum (peaked at ~2 GeV, with electrons up to 2.4 GeV). A fast opening and closing gas valve is essential to a LPA. This paper describes a fast valve (developed under a DOE SBIR grant) that opens in <;100μs, closes in <;400μs and can run (in cooled mode) at ~10Hz rep-rates at pressures as high as 1000psia. Recently we have designed advanced versions of the nozzle to create ~10-15mm long supersonic gas jets with tailored density gradients to test the concept of phase locking in an LPA. Dense gas jets with high concentrations of clusters are also of interest for such ultra-fast laser interactions. Development of a dense cluster jet using our ultra-fast opening/closing valve is also described.
快脉冲簇射流
只提供摘要形式。短脉冲、超快激光脉冲与物质强烈相互作用,产生二次辐射束,如通过高谐波产生相干x射线,通过激光尾流场加速产生电子束,通过激光驱动离子加速产生质子。这些二次辐射源在生物成像、医学诊断和治疗以及无损评估等方面都有应用。新兴的激光等离子体加速(LPA)领域已经展示了具有前所未有的电场梯度的电子加速器。超音速,高度准直的气体射流和充满气体的毛细管放电波导是LPA的两个主要目标选择。利用150 J的德克萨斯Petawatt激光聚焦在7 cm He气室中,记录了LPA加速束能量>2 GeV的新记录。电子束高度准直(1nc),能谱宽(峰值为~ 2gev,电子可达2.4 GeV)。快速开启和关闭气体阀对于LPA是必不可少的。本文描述了一种快速阀门(在DOE SBIR资助下开发),该阀门在< 100μs内打开,在< 400μs内关闭,并且可以在高达1000psia的压力下以~10Hz的频率运行(在冷却模式下)。最近,我们设计了先进版本的喷嘴,以创建约10-15mm长的超音速气体射流,具有定制的密度梯度,以测试LPA中的锁相概念。具有高浓度星团的致密气体射流也是这种超快激光相互作用的兴趣所在。还描述了使用我们的超快速开/关阀开发密集簇射流。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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