基于外置射频天线的无尖峰高占空因数脉冲负氢离子源研制

D. V. Ghodke, R. Khare, Rajnish Kumar, Manish Pathak, S. K. Jain, A. Amban, K. Krishnan, Kuldeep K Singh, P. Shrivastava, V. Prasad
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引用次数: 0

摘要

设计并研制了一种基于外置射频天线的无尖点负氢离子源。本文报道了该源在10%占空比下工作的关键实验结果。提取的氢离子束电流为11 mA,脉冲持续时间为2 ms,重复频率为50 Hz,束流能量为50 keV。氢离子源在高占空因数下运行会导致元件温升。这可能导致电子元件,等离子体或点火器室的真空接头失效,或烧毁提取电极。为了使工作温度保持在限制范围内,设计并集成了水冷却系统,用于(i)在7kv交流下以90a RMS工作的2mhz射频天线,(ii)在15kv直流最大电压下工作的提取电极,(iii)等离子体室(由氮化铝制成,对射频场透明,具有高导热性),以及(iv)用于测量H离子电流的法拉第杯。13.56 MHz射频脉冲点火器采用强制空气冷却,外加各种稳电流电极偏置网络和射频阻抗匹配网络。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of external RF antenna based cusp free high duty factor pulsed negative hydrogen ion source
An external RF antenna based cusp free negative hydrogen (H−) ion source has been designed and developed. This source operates at 10% duty factor and the key experimental results are reported in the paper. The extracted H- ion beam current is 11 mA with 2 ms pulse duration and 50 Hz repetition rate at 50 keV beam energy. Operation of the H- ion source at high duty factor results in temperature rise in components. This may lead to failure of electronic components, vacuum joints of the plasma or igniter chambers, or burn out the extraction electrodes. In order to keep the operating temperature within limits, a water cooling system was designed and incorporated for (i) the 2 MHz RF antenna operating at 90 A RMS at 7 kV AC, (ii) the extraction electrodes, operating at a maximum voltage of 15 kV DC, (iii) the plasma chamber (made of Aluminium Nitride, transparent to RF field with high thermal conductivity), and (iv) the Faraday cup for H- ion current measurement. Forced air cooling was used for the 13.56 MHz RF-based pulsed igniter, plus on the various current-stabilizing electrode biasing networks and RF impedance matching networks.
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