激光等离子体中的二维汤姆逊散射

Q3 Physics and Astronomy Instruments Pub Date : 2023-05-13 DOI:10.3390/instruments7030025

Haiping Zhang, J. Pilgram, Carmen G. Constantin, L. Rovige, P. Heuer, S. Ghazaryan, M. Kaloyan, R. Dorst, Derek Schaeffer, Christoph Niemann

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引用次数: 0

摘要

我们提出二维(2D)光学汤姆逊散射测量电子密度和温度在激光产生的等离子体。该新型仪器在大空间区域(cm2)上以亚毫米的空间分辨率直接测量二维ne(x,y)和Te(x,y)，通过自动转换散射体积，同时用高重复率激光束(10 J， ~ 1012 W/cm2, 1 Hz)照射固体目标反复产生等离子体。在本文中，我们描述了仪器的设计和机动自动对准，以及计算机算法，该算法自动拟合光谱分布函数到数万个测量的散射光谱，并捕获从集体到非集体状态随距离目标的转变。作为一个例子，我们提出了在0.13毫巴压力的环境氮气中激光驱动激波的第一个二维散射测量。

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Two-Dimensional Thomson Scattering in Laser-Produced Plasmas

We present two-dimensional (2D) optical Thomson scattering measurements of electron density and temperature in laser-produced plasmas. The novel instrument directly measures ne(x,y) and Te(x,y) in two dimensions over large spatial regions (cm2) with sub-mm spatial resolution, by automatically translating the scattering volume while the plasma is produced repeatedly by irradiating a solid target with a high-repetition-rate laser beam (10 J, ∼1012 W/cm2, 1 Hz). In this paper, we describe the design and motorized auto-alignment of the instrument and the computerized algorithm that autonomously fits the spectral distribution function to the tens-of-thousands of measured scattering spectra, and captures the transition from the collective to the non-collective regime with distance from the target. As an example, we present the first 2D scattering measurements in laser-driven shock waves in ambient nitrogen gas at a pressure of 0.13 mbar.

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