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根据磁绝缘线振荡器(magnetically insulated transmission line oscillator, MILO)中基模(TM00模)与临近高阶模(HEM11模)高频场分布的区别,采用破坏各腔之间HEM11模模谐振条件的方式抑制器件中高阶模产生的方法,提出了高阶模抑制型MILO. 运用三维全电磁粒子模拟软件对高阶模抑制型L波段MILO器件进行模拟研究, 数值模拟结果表面该方法能够抑制器件中HEM11模的产生.在此基础上对器件进行了对比性实验研究, 实验结果表明高阶模抑制型器件能够抑制HEM11模的产生,稳定工作在基模.A novel higher order mode depressed L-band magnetically insulated transmission line oscillator (MILO) device is put forward by destroying the-mode oscillating condition of HEM11 mode. High frequency analysis and PIC simulation are carried out. The simulation results reveal that the novel MILO device oscillates in TM00 mode and successfully suppresses the higher order HEM11 mode generation. Contrastive experiments are carried out. Purified 1.3 GHz microwave obtains a corresponding fundamental mode oscillation in higher order depressed MILO in contrast with original MILO which obtains a 1.42 GHz microwave output.
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Keywords:
- MILO /
- fundamental mode /
- HEM11 mode /
- high power microwave
[1] Lemke R W, Clark M C 1987 IEEE Trans. Plasma Sci. 62 3436
[2] Haworth M D, Luginsland J W, Lemke R W 2001 IEEE Trans. Plasma Sci. 29 388
[3] Chen D B, Fan Z K, Dong Z W 2007 High Power Laser and Particle Beams 19 820 (in Chinese) [陈代兵, 范植开, 王冬 2007 强激光与粒子束 19 820]
[4] Fan Y W, Yuan C W, Zhong H H Simulation Investigation of an Improved MILO. IEEE Trans. Plasma Sci., vol. 35, No. 2, Apr. 2007
[5] Cousin R, Larour J, Gardelle J 2007 IEEE Trans. Plasma Sci. vol. 35, No. 5
[6] Sun H F, Dong Z W 2008 High Power Laser and Particle Beams 20 641 (in Chinese) [孙会芳, 董志伟 2008 强激光与粒子束 20 641]
[7] Sun H F, Dong Z W 2010 High Power Laser and Particle Beams 22 303 (in Chinese) [孙会芳, 董志伟 2010 强激光与粒子束 22 303]
[8] Wang D, Chen D B, Fan Z K 2008 Acta Phys. Sin 57 4875 (in Chinese) [王冬, 陈代兵, 范植开 2008 57 4875]
[9] Wang D, Chen D B, Qin F 2009 Chin. Phys. B 18 4281
[10] Qin F, Wang D, Wen J, Chen D B, Fan Z K 2011 IEEE Trans. Plasma Sci. 39 545
[11] Qin F, Wang D, Chen D B, Fan Z K 2009 IEEE Trans. Plasma Sci. 37 1921
[12] Wang D, Chen D B, Qin F 2009 Acta Phys. Sin. 58 6962 (in Chinese) [王冬, 陈代兵, 范植开 2009 58 6962]
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[1] Lemke R W, Clark M C 1987 IEEE Trans. Plasma Sci. 62 3436
[2] Haworth M D, Luginsland J W, Lemke R W 2001 IEEE Trans. Plasma Sci. 29 388
[3] Chen D B, Fan Z K, Dong Z W 2007 High Power Laser and Particle Beams 19 820 (in Chinese) [陈代兵, 范植开, 王冬 2007 强激光与粒子束 19 820]
[4] Fan Y W, Yuan C W, Zhong H H Simulation Investigation of an Improved MILO. IEEE Trans. Plasma Sci., vol. 35, No. 2, Apr. 2007
[5] Cousin R, Larour J, Gardelle J 2007 IEEE Trans. Plasma Sci. vol. 35, No. 5
[6] Sun H F, Dong Z W 2008 High Power Laser and Particle Beams 20 641 (in Chinese) [孙会芳, 董志伟 2008 强激光与粒子束 20 641]
[7] Sun H F, Dong Z W 2010 High Power Laser and Particle Beams 22 303 (in Chinese) [孙会芳, 董志伟 2010 强激光与粒子束 22 303]
[8] Wang D, Chen D B, Fan Z K 2008 Acta Phys. Sin 57 4875 (in Chinese) [王冬, 陈代兵, 范植开 2008 57 4875]
[9] Wang D, Chen D B, Qin F 2009 Chin. Phys. B 18 4281
[10] Qin F, Wang D, Wen J, Chen D B, Fan Z K 2011 IEEE Trans. Plasma Sci. 39 545
[11] Qin F, Wang D, Chen D B, Fan Z K 2009 IEEE Trans. Plasma Sci. 37 1921
[12] Wang D, Chen D B, Qin F 2009 Acta Phys. Sin. 58 6962 (in Chinese) [王冬, 陈代兵, 范植开 2009 58 6962]
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