用于康奈尔/桑迪亚ICF研究的COBRA加速器脉冲动力驱动器

D.L. Smith, P. Ingwersen, L. Bennett, J. Boyes, D.E. Anderson, J. Greenly, R. Sudan, D. Hammer
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引用次数: 1

摘要

本文介绍并描述了新的康奈尔束流研究加速器COBRA,这是一个为期三年半的合作成果。灵活的4至5 mv, 100至250 ka, 46-ns脉冲宽度加速器基于四腔电感电压加法器(IVA)设计。除了混合了新组件和现有组件外,COBRA的独特之处在于每个腔都由单个脉冲形成线驱动,并且IVA输出极性可以通过围绕其垂直轴旋转180/spl度来反转。在MITL内杆负高压下的实验表明,真空功率流在空腔输出间隙后约2ns (0.6 m)内建立了合理的方位角对称性。介绍了加速器、单腔和MITL的初步结果,以及设计细节和电路模型预测。
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The COBRA accelerator pulsed-power driver for Cornell/Sandia ICF research
This paper introduces and describes the new Cornell Beam Research Accelerator, COBRA, the result of a three and one-half year collaboration. The flexible 4 to 5-MV, 100 to 250-kA, 46-ns pulse width accelerator is based on a four-cavity inductive voltage adder (IVA) design. In addition to being a mix of new and existing components, COBRA is unique in the sense that each cavity is driven by a single pulse forming line, and the IVA output polarity may be reversed by rotating the cavities 180/spl deg/ about their vertical axis. Our tests with negative high voltage on the inner MITL stalk indicate that the vacuum power flow has established reasonable azimuthal symmetry within about 2 ns (or 0.6 m) after the cavity output gap. Preliminary results with the accelerator, single cavity, and MITL are presented along with the design details and circuit model predictions.
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