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Development of a High-Power Continuous-Wave Gyrotron for High-Efficiency Technological K-Band Microwave Complexes
Radiophysics and Quantum Electronics ( IF 0.8 ) Pub Date : 2019-12-01 , DOI: 10.1007/s11141-020-09996-w M. D. Proyavin , M. Yu. Glyavin , N. A. Zavol’sky , V.N. Manuilov , M.V. Morozkin , D. I. Sobolev , T. O. Krapivnitskaya
Radiophysics and Quantum Electronics ( IF 0.8 ) Pub Date : 2019-12-01 , DOI: 10.1007/s11141-020-09996-w M. D. Proyavin , M. Yu. Glyavin , N. A. Zavol’sky , V.N. Manuilov , M.V. Morozkin , D. I. Sobolev , T. O. Krapivnitskaya
We analyze the possibility to create new generation continuous-wave gyrotrons operating in the Kband (at frequencies of 28-30 GHz) at the fundamental cyclotron resonance with an output power of 25–30 kW and more. For a gyrotron with a magnetically shielded solenoid, the electron-optical and electrodynamic systems have been optimized, which ensures generation with high efficiency (about 50%) at acceptable thermal loads on the key device elements. The proposed design of the gyrotron ensures long-term continuous-wave operation of the technological complex with a total system efficiency of about 35%, which is significantly superior to the existing analogs.
中文翻译:
用于高效技术 K 波段微波复合体的高功率连续波回旋管的开发
我们分析了在 K 波段(频率为 28-30 GHz)中以基本回旋共振创建新一代连续波回旋加速器的可能性,输出功率为 25-30 kW 或更高。对于带有磁屏蔽螺线管的回旋管,电子光学和电动系统已经过优化,可确保在关键设备元件上可接受的热负载下以高效率(约 50%)发电。陀螺仪的拟议设计确保了技术综合体的长期连续波操作,总系统效率约为 35%,明显优于现有类似物。
更新日期:2019-12-01
中文翻译:
用于高效技术 K 波段微波复合体的高功率连续波回旋管的开发
我们分析了在 K 波段(频率为 28-30 GHz)中以基本回旋共振创建新一代连续波回旋加速器的可能性,输出功率为 25-30 kW 或更高。对于带有磁屏蔽螺线管的回旋管,电子光学和电动系统已经过优化,可确保在关键设备元件上可接受的热负载下以高效率(约 50%)发电。陀螺仪的拟议设计确保了技术综合体的长期连续波操作,总系统效率约为 35%,明显优于现有类似物。
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