Recombination XUV Lasers Driven by Low Energy Picosecond Pulses from a High Brightness KrF Raman Laser

Eighth International Conference on Ultrafast Phenomena Pub Date : 1900-01-01 DOI:10.1364/up.1992.tuc24

L. Dwivedi, J. Jacoby, Y. Kato, M. Key, R. Kodama, C. Lewis, M. Lightbody, H. Murai, P. Norreys, G. Pert, S. Ramsden, H. Shiraga, C. Smith, G. Tallents, J. Uhomoibhi, G. Yuan, J Zhang

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Abstract

There is great interest in the development of XUV lasers with driver energies of a few joules rather than a few kilojoules. One of the most promising ways to accomplish this is based upon the use of fast adiabatic cooling to produce population inversion in recombination to hydrogenic ions(l). Theoretical modelling(2) indicates that the optimum driver for this scheme should produce pulses of duration < 10 ps, ultraviolet wavelength and focusability to sub 10 µm line foci with length of the order 1 cm. Under these conditions saturated laser action at wavelengths below 20 nm is predicted in plasmas created from fibre targets of < 10 µm radius with driver energy < 10 J (see eg Fig 1). Preliminary experimental studies have been carried out using a high brightness 5 J, 10 ps KrF pumped Raman laser beam(3) with observations of fluorescence and possible amplification on the Balmer-α transitions of C VI, O VIII(4). In a current experiment these phenomena are being studied in detail. Our paper will review the theoretical basis for the X-ray laser scheme, describe the experimental and diagnostic system, review previous preliminary results and report on the results of the current more detailed experiment.

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高亮度KrF拉曼激光器低能量皮秒脉冲驱动的复合XUV激光器

人们对开发驱动能量为几焦耳而不是几千焦耳的XUV激光器非常感兴趣。实现这一目标的最有希望的方法之一是基于使用快速绝热冷却来产生氢离子重组中的居群反转(1)。理论模型(2)表明，该方案的最佳驱动器应产生持续时间< 10 ps、波长为紫外线、可聚焦到10 μ m以下、长度为1 cm数量级的线焦点的脉冲。在这些条件下，在半径< 10 μ m、驱动能量< 10 J的光纤靶产生的等离子体中，可以预测波长低于20 nm的饱和激光作用(见图1)。使用高亮度5 J、10 ps KrF泵浦拉曼激光束(3)进行了初步实验研究，观察了C VI、O VIII的Balmer-α跃迁的荧光和可能的放大(4)。在目前的一项实验中，正在详细研究这些现象。本文将回顾x射线激光方案的理论基础，描述实验和诊断系统，回顾以往的初步结果，并报告当前更详细的实验结果。

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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Eighth International Conference on Ultrafast Phenomena

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