用于W7-X的1mw、140 GHz连续波回旋管的进展

Twenty Seventh International Conference on Infrared and Millimeter Waves Pub Date : 2002-12-16 DOI:10.1109/ICIMW.2002.1076055

G. Dammertz, S. Alberti, A. Arnold, E. Borie, V. Erckmann, G. Gantenbein, E. Giguet, R. Heidinger, J. Hogge, S. Illy, W. Kasparek, K. Koppenburg, M. Kuntze, H. Laqua, G. LeCloarec, F. Legrand, W. Leonhardt, C. Liévin, R. Magne, G. Michel, G. Muller, G. Neffe, B. Piosczyk, M. Schmid, K. Schwoerer, M. Thumm, M. Tran

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引用次数: 10

摘要

在不同的欧洲研究机构和工业伙伴之间的合作下，在核聚变研究中用于加热等离子体的连续波操作中的高功率回旋管的开发已经取得了几年的进展。140 GHz回旋管设计用于连续波工作的输出功率为1 MW，并在TE/sub 28,8/模式下工作。第一管“Maquette”在卡尔斯鲁厄Forschungszentrum Karlsruhe测试。回旋管的长脉冲操作是可能的，但它受到射频负载的行为和管内压力增加的限制。在调制频率为50khz的正弦频率下，进行了幅度在0.1 ~ 0.8 kW之间的调制实验。通过目视检查，镜盒上有一些熔化的斑点。一个改进的管(原型1)有更好的冷却和一个额外的缓解窗口在镜盒已经建成和测试。在不优化短脉冲和长脉冲运行参数的情况下，脉冲长度为180秒时输出功率为0.85 kW，脉冲长度为12秒时输出功率为0.97 kW，效率为44%(抑制电压为26 kV)。即使是长脉冲操作，管内压力的增加也是适度的。这种限制是由模式损耗和/或与寄生振荡相关的阴极电流增加引起的。

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Progress of the 1 MW, 140 GHz, CW gyrotron for W7-X

The development of high power gyrotrons in continuous wave operation for heating of plasmas used in nuclear fusion research has been in progress for several years in a collaboration between different European research institutes and industrial partners. The 140 GHz gyrotron is designed for an output power of 1 MW in continuous wave operation and is operated in the TE/sub 28,8/ mode. The first tube "Maquette" was tested at the Forschungszentrum Karlsruhe. Long pulse operation of the gyrotron was possible but it was limited by the behaviour of the RF-load and by the pressure increase inside the tube. Modulation experiments with an amplitude between 0.1-0.8 kW were performed up to a modulation frequency of 50 kHz sinusoidally. A visual inspection of the tube showed some melted spots in the mirror box. An improved tube (Prototype 1) with better cooling and an additional relief window at the mirror box has been built and tested. Without optimisation of the parameters in short and long pulse operation, an output power of 0.85 kW could be achieved with a pulse length of 180 s and 0.97 kW for 12 s with an efficiency of 44% (depression voltage: 26 kV). Even for long pulse operation, the pressure increase inside the tube was moderate. The limitations were caused by mode-loss and/or by increased cathode current connected with parasitic oscillations.

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Twenty Seventh International Conference on Infrared and Millimeter Waves

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