美国能源部100t多射脉冲磁体项目首个90t插入磁体的性能

2006 IEEE International Conference on Megagauss Magnetic Field Generation and Related Topics Pub Date : 2006-11-01 DOI:10.1109/MEGAGUSS.2006.4530680

C. Swenson, J. Sims, D. Rickel

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引用次数: 3

摘要

美国能源部100 T多射脉冲磁体项目的第一阶段现在已经完成。最初的计划目标是一个非破坏性的毫秒级90 T脉冲磁体系统，以支持高磁场下的科学研究。两个磁体子系统包括磁体:7个发电机驱动线圈的嵌套阵列，在225毫米内径中产生41.6 T;以及电容驱动的15毫米孔“插入”磁铁，该磁铁在外部线圈组内产生50.9 T。美国能源部100 T多弹脉冲磁体项目是美国能源部洛斯阿拉莫斯国家实验室工程团队和美国国家科学基金会位于佛罗里达州塔拉哈西国家高磁场实验室的工程团队之间的合作。美国能源部负责系统集成和发电机驱动外线圈组的开发。美国国家科学基金会负责电容器驱动插入磁铁的开发和生产。90tms系统目前正处于运行调试阶段。本文介绍了磁体设计、运行性能数据以及50.9 T插入式磁体所需的发展情况。90t插入体的技术是从一系列原型磁体构建发展而来的，以获取工程概念和材料，并获得在相同温度、应力和应变制度下操作插入式线圈的经验，最终将在100t下遇到。我们将在原型开发计划的背景下访问90t插入体的性能，以及未来100t操作在毫秒时间尺度上的要求。

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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Performance of First 90 T Insert Magnet for US-DOE 100 T Multi-Shot Pulsed Magnet Program

The first phase of the US-DOE 100 T multi-shot pulsed magnet program has now been completed. The initial program goals were a non-destructive millisecond-scale 90 T pulse magnet system to support scientific research in high magnetic fields. Two magnet subsystems comprise the magnet: a nested array of seven generator-driven coils that produce 41.6 T in a 225 mm bore; and a capacitor-driven 15 mm bore "insert" magnet that produces 50.9 T inside the outer coil set. The US-DOE 100 T Multi-shot (MS) Pulsed Magnet Program is collaboration between US-DOE engineering teams at Los Alamos National Laboratory and the US-NSF engineering team at the National High Magnetic Field Laboratory located in Tallahassee Florida. The US-DOE is responsible for the systems integration and the development of the generator driven outer coil set. The US-NSF is responsible for the development and production of the capacitor driven insert magnet. The 90 T MS system is now in the commissioning phase of operations. This paper presents a review of the magnet design, operational performance data, and the developments required for the 50.9 T insert magnet. Technology for the 90 T insert evolved from a series of prototype magnets build to access engineering concepts and materials, and gain experience operating insert-like coils at the same temperature, stress, and strain regime as will ultimately be encountered at 100 T. We will access the performance of the 90 T insert in the context of the prototype development program and the requirements for future 100 T operations on the millisecond time scale.

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2006 IEEE International Conference on Megagauss Magnetic Field Generation and Related Topics

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