用于紧凑型高产量中子发生器的永磁微波离子源

O. Waldmann
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引用次数: 13

摘要

我们介绍了一种微波离子源的最新开发工作,该源将用于用于主动询问应用的高产量紧凑型中子发生器。密封管发生器将能够产生高中子产量,D-T反应为5 × 1011 n/s, D-D反应为1 × 1010 n/s,同时保持可运输性。我们用永磁体构建了一个2.45 GHz的微波离子源,以提供87.5 mT的磁场强度来满足电子回旋共振(ECR)条件。微波离子源可以在密封管操作所需的低气压和比以前使用的rf驱动离子源更低的功率水平下产生高提取光束电流。100毫安的氘/氚光束将通过一个大狭缝(60x6平方毫米)被提取出来,将光束功率分散到更大的目标区域。本文介绍了永磁微波离子源的设计,讨论了磁场设计对源性能的影响。在400 W的中等微波功率和优化磁场条件下,提取出所需的等效质子束电流密度为40 mA/cm2。
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A Permanent-Magnet Microwave Ion Source for a Compact High-Yield Neutron Generator
We present recent work on the development of a microwave ion source that will be used in a high-yield compact neutron generator for active interrogation applications. The sealed tube generator will be capable of producing high neutron yields, 5x1011 n/s for D-T and ~;;1x1010 n/s for D-D reactions, while remaining transportable. We constructed a microwave ion source (2.45 GHz) with permanent magnets to provide the magnetic field strength of 87.5 mT necessary for satisfying the electron cyclotron resonance (ECR) condition. Microwave ion sources can produce high extracted beam currents at the low gas pressures required for sealed tube operation and at lower power levels than previously used RF-driven ion sources. A 100 mA deuterium/tritium beam will be extracted through a large slit (60x6 mm2) to spread the beam power over a larger target area. This paper describes the design of the permanent-magnet microwave ion source and discusses the impact of the magnetic field design on the source performance. The required equivalent proton beam current density of 40 mA/cm2 was extracted at a moderate microwave power of 400 W with an optimized magnetic field.
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