用于表征高温高密度等离子体的探测激光器

S. Glenzer
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引用次数: 0

摘要

只提供摘要形式。LCLS x射线激光器与高功率纳秒和飞秒激光束在极端条件下的独特组合允许对高能量密度等离子体进行精确的泵浦探测研究。为此,我们正在建立一个新的200tw激光系统,以测量和揭示决定超强激光束与物质相互作用的潜在物理机制。重复频率和脉冲宽度提供了与LCLS x射线能力的自然匹配,允许泵浦探针实验具有超高时间分辨率和非常高的数据吞吐量,射击速率从200 TW时的约1次/分钟到30 TW时的约5 Hz。在这次演讲中,我们将首次展示激波压缩物质中具有前所未有的光谱、波数和时间分辨率的汤姆逊散射结果,并将讨论未来旨在测量致密等离子体物理特性的实验。
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Probe lasers for characterizing high-temperature, high-density plasmas
Summary form only given. The unique combination of the LCLS x-ray laser with high-power nanosecond and femtosecond laser beams at the Matter of Extreme Conditions allows precision pump-probe studies of high energy density plasmas. For this purpose, we are building a new 200 TW laser system to measure and uncover the underlying physics mechanism that determine the interaction of ultra intense laser beams with matter. The repetition rate and pulse width provide a natural match to the LCLS x-ray capabilities allowing pump-probe experiments with ultrahigh temporal resolution with very high data throughput with shot rates ranging from about 1 shot/min at 200 TW to about 5 Hz at 30 TW. In this talk we will present first Thomson scattering results with unprecedented spectral, wavenumber and temporal resolution in shock compressed matter and will discuss future experiments aimed at measuring the physical properties of dense plasmas.
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