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Generation of MeV x-rays with 3-mJ, picosecond laser pulses

Optics + Optoelectronics Pub Date : 2023-06-08 DOI:10.1117/12.2666404
D. Deciccio, Keith Bisogno, B. Adams, G. Barbiero, M. Rampp, T. Metzger, C. Rose-Petruck
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引用次数: 1

Abstract

We demonstrate High-Energy X-ray (HEX-ray) generation using 2.8-mJ, 850fs pulses on a liquid metal target in a Laser Plasma X-ray Source (LPXS). The measured HEX-ray spectra reach into the MeV spectral range. The spectra follow Boltzmann energy distributions with a maximum HEX-ray “temperature” of 420 keV. The low laser intensity requirement, orders of magnitude less than previously reported, enables operation with widely available picosecond, millijoule laser systems with hundreds of Watt average laser power. Based on lasers with Yb-doped active media, HEX-ray sources driven with kilowatt average laser power are achievable in the very near future.
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用3兆焦耳皮秒激光脉冲产生MeV x射线
我们演示了在激光等离子体x射线源(LPXS)中使用2.8 mj, 850fs脉冲对液态金属目标产生高能x射线(HEX-ray)。测得的hexx射线光谱达到了MeV光谱范围。光谱符合玻尔兹曼能量分布,hex射线的最高温度为420 keV。较低的激光强度要求,比以前报道的要小几个数量级,可以使用广泛可用的皮秒、毫焦耳激光系统,平均激光功率为数百瓦。基于掺镱有源介质的激光器,以千瓦级平均激光功率驱动的hex射线源在不久的将来是可以实现的。
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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Optics + Optoelectronics
Optics + Optoelectronics
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