Optimization of Microwave Injection at Compact ECR Ion Source

机译：紧凑型ECR离子源的微波注入优化

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A prototype compact ECR ion source, named Kei3, has been developed for the production of various ions. Kei3 consists of upstream vacuum chamber, permanent magnets and plasma chamber, and downstream vacuum chamber with extraction system. The magnetic field was copied from present prototype Kei2. As a result of basic beam tests of Kei3, the maximum beam currents of C⁴⁺, N⁵⁺, O⁶⁺ and Ne⁷⁺ were 565 μA, 185 μA, 99 μA, and 50.5 μA, respectively. In order to increase the beam current of heavy ions such as argon, we modified the microwave injection. Moreover, we tested two-frequency heating for increasing the current of highly charged argon. A maximum current of 60.4 μA for Ar⁷⁺ was obtained in plate position of 7 mm at longer waveguide. Second, we tested two-frequency heating technique for increase the highly charged argon ions. We could increase a beam intensity of Ar⁸⁺ from 9.7 to 15.4 μA.

机译：已开发出名为Kei3的原型紧凑型ECR离子源，用于生产各种离子。 Kei3由上游真空室，永磁体和等离子体室以及带有抽气系统的下游真空室组成。磁场是从目前的原型Kei2复制而来的。作为Kei3基本光束测试的结果，C的最大光束电流 ^{4 +
，N
^{5 +
O
^{6 +
和Ne
^{7 +
分别为565μA，185μA，99μA和50.5μA。为了增加重离子（例如氩气）的束流，我们对微波注入进行了改进。此外，我们测试了两频加热以增加高电荷氩气的电流。 Ar的最大电流为60.4μA
^{7 +
在更长的波导处，在7mm的平板位置上获得了λ。其次，我们测试了两频加热技术以增加高电荷的氩离子。我们可以增加Ar的光束强度
^{8 +
从9.7到15.4μA。}}}}}}

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《International Conference on Ion Implantation Technology》|2018年|200-202|共3页
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Masayuki Muramatsu; Atsushi Kitagawa; Ken Katagiri; Satoru Hojo; Kouta Hamada; Yushi Kato; Taku Suzuki; Katsuyuki. Takahashi; Fumihisa Ouchi;
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关键词
Argon; Tuners; Ions; Electromagnetic heating; Plasmas; Microwave frequencies;

机译：氩;调谐器;离子;电磁加热;等离子;微波频率;

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2. Compact Source Detection in Multichannel Microwave Surveys: From SZ Clusters to Polarized Sources [J] . DiegoHerranz, FranciscoArgüeso, PedroCarvalho Advances in Astronomy . 2012,第6期

机译：多通道微波测量中的紧凑型源检测：从SZ团簇到极化源
3. Optimization of a compact conical horn antenna system for high power microwaves in the 4 to 6 GHz range [J] . Becker E.C., Kovaleski S.D., Gahl J.M. Dielectrics and Electrical Insulation, IEEE Transactions on . 2011,第4期

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4. Optimization of Microwave Injection at Compact ECR Ion Source [C] . Masayuki Muramatsu, Atsushi Kitagawa, Ken Katagiri, International Conference on Ion Implantation Technology . 2018

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5. Optimizing Source Anonymity of Wireless Sensor Networks against Global Adversary Using Fake Packet Injections [D] . Bushnag, Anas. 2017

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6. Design and optimization of an ultra-wideband and compact microwave antenna for radiometric monitoring of brain temperature [O] . Dario B. Rodrigues, Paolo F. Maccarini, Sara Salahi, -1

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7. Improvement of microwave injection for heavy-ion production at a compact ECR ion source [O] . Masayuki Muramatsu, Kouta Hamada, Takuto Watanabe, 2018

机译：紧凑型ECR离子源的重离子生产微波喷射的改进
8. Microwave generation for magnetic fusion energy applications: Task A -- Experimental and numerical study of microwave sources for ECRH incorporating depressed collectors and with ITER-relevant parameters, and Task B -- Theory and modeling of high frequency, high power gyrotron operation. Final report, July 15, 1994--July 14, 1995 [R] . 1995

机译：用于磁聚变能量应用的微波产生：任务a-用于ECRH的微波源的实验和数值研究，其包括凹陷收集器和ITER相关参数，以及任务B-高频，高功率回旋管操作的理论和建模。最终报告，1994年7月15日 - 1995年7月14日

Optimization of Microwave Injection at Compact ECR Ion Source

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