GALADRIEL: A facility for advancing engineering science relevant to rep-rated high energy density physics and inertial fusion energy experiments.

IF 1.3 4区 工程技术 Q3 INSTRUMENTS & INSTRUMENTATION Review of Scientific Instruments Pub Date : 2024-11-01 DOI:10.1063/5.0220160
G W Collins, C McGuffey, M Jaris, D Vollmer, A Dautt-Silva, E Linsenmayer, A Keller, J C Ramirez, B Sammuli, M Margo, M J-E Manuel
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Abstract

Many current and upcoming laser facilities used to study high-energy-density (HED) physics and inertial fusion energy (IFE) support operating at high rep-rates (HRRs) of ∼0.1-10 Hz, yet many diagnostics, target-fielding strategies, and data storage methods cannot support this pace of operation. Therefore, established experimental paradigms must change for the community to progress toward rep-rated operation. To this end, we introduce the General Atomics LAboratory for Developing Rep-rated Instrumentation and Experiments with Lasers, or GALADRIEL, to serve as a test bed for developing and benchmarking the engineering science advancements required for HRR experiments. GALADRIEL was constructed from the ground up around a commercial 1 TW (∼25 mJ in ∼25 fs at 800 nm) laser with diverse experimental applications in mind. Assembly of the basic framework of GALADRIEL concluded with commissioning shots generating ∼1-4 MeV electrons via laser-wakefield acceleration (LWFA) using a nitrogen gas jet. Subsequent LWFA experiments operated at 1 Hz, utilized instrument feedback for optimization, and stored all data in a custom-built NoSQL database system. From this database called MORIA, or the MOngodb Repository for Information Archiving, data are retrievable via individual files or en masse by query requests defined by the user. GALADRIEL focuses on outstanding questions in engineering science, including targetry, diagnostics, data handling, environmental and materials studies, analysis and machine learning algorithm development, and feedback control systems. GALADRIEL fills a niche presently missing in the US-based user-facility community by providing a flexible experimental platform to address problems in engineering science relevant to rep-rated HED and IFE experiments.

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GALADRIEL:推进与高能量密度物理学和惯性聚变能实验相关的工程科学的设施。
目前许多用于研究高能量密度(HED)物理和惯性聚变能(IFE)的激光设施都支持以0.1-10赫兹的高重复率(HRRs)运行,但许多诊断方法、靶场策略和数据存储方法都无法支持这种运行速度。因此,必须改变既有的实验范式,才能使研究界朝着重复率运行的方向迈进。为此,我们引入了通用原子激光实验室(GALADRIEL),作为开发和衡量 HRR 实验所需的工程科学进步的试验平台。GALADRIEL 是围绕商用 1 TW(800 纳米 25 fs ∼ 25 mJ)激光器从头开始构建的,考虑到了各种实验应用。GALADRIEL 的基本框架组装完成后,通过使用氮气射流进行激光渚波加速(LWFA),进行了产生 ∼1-4 MeV 电子的试运行。随后的 LWFA 实验以 1 Hz 的频率运行,利用仪器反馈进行优化,并将所有数据存储在定制的 NoSQL 数据库系统中。从这个名为 MORIA(或 MOngodb 信息存档库)的数据库中,可通过单个文件或用户定义的查询请求进行数据检索。GALADRIEL 主要关注工程科学领域的突出问题,包括目标分析、诊断、数据处理、环境和材料研究、分析和机器学习算法开发以及反馈控制系统。GALADRIEL 提供了一个灵活的实验平台,以解决工程科学中与重定级 HED 和 IFE 实验相关的问题,从而填补了美国用户设施社区目前所缺失的空白。
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来源期刊
Review of Scientific Instruments
Review of Scientific Instruments 工程技术-物理:应用
CiteScore
3.00
自引率
12.50%
发文量
758
审稿时长
2.6 months
期刊介绍: Review of Scientific Instruments, is committed to the publication of advances in scientific instruments, apparatuses, and techniques. RSI seeks to meet the needs of engineers and scientists in physics, chemistry, and the life sciences.
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