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Volume 27 Issue 5
May  2005
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Liang Xian-feng, Liu Pu-kun. PIC Simulation of a Ka-Band Second Harmonic Gyroklystron Amplifier[J]. Journal of Electronics & Information Technology, 2005, 27(5): 819-822.
Citation: Liang Xian-feng, Liu Pu-kun. PIC Simulation of a Ka-Band Second Harmonic Gyroklystron Amplifier[J]. Journal of Electronics & Information Technology, 2005, 27(5): 819-822.

PIC Simulation of a Ka-Band Second Harmonic Gyroklystron Amplifier

  • Received Date: 2004-01-05
  • Rev Recd Date: 2004-05-28
  • Publish Date: 2005-05-19
  • The conditions of the steady operation of the amplifiers are analyzed based on the characteristics of beam-wave interactions of harmonic gyroklystron amplifiers in this paper. The optimized design parameters of the circuit of the beam-wave interactions are obtained by simulation and calculation of the beam-wave interactions of a Ka-band, second harmonic, three cavities gyroklystron amplifier. The results show that this gyroklystron amplifier can produce an output peak power of over 250kW with more than 21dB gain and 23% maximum efficiency at 35GHz with a 70kV, 15A electron beam, and a 3dB bandwidth of about 120 MHz. This work is beneficial to the actual engineering design of the Ka-band second harmonic gyroklystron amplifier.
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  • Antakov I I, et al.. 35-GHz radar gyroklystrons. In Proc. 18th Int. Conf. Infrared Millimeter Waves, Colchester, UK, 1993:338 - 339.[2]Calame J P, Garven M, Choi J J, et al.. Experimental studies of bandwidth and power production in a three-cavity 35GHzgyroklystron amplifier[J].Phys. Plasmas.1999, 6(1):285-[3]Danly B G, Blank M, Calame J P, et al.. Demonstration of a 10kW average power 94GHz gyroklystron amplifier[J].Phys.Plasmas.1999, 6(12):4405-[4]Danly B G. Gyro-amplifiers for high power millimeter wave radar. Third IEEE International Vacuum Electronics Conf.,California, USA, April 23-25, 2002:361 - 362.[5]Zasypkin E V, Moiseev M A, Gachev I G, et al.. Study of high-power Ka-band second-harmonic gyroklystron amplifier[J].IEEE Trans. on Plasma Sci.1996, 24(3):666-[6]Gachev I G, Antakov I I, Lygin V K, et al. A Ka-band second harmonic gyroklystron with permanent magnet. Fifth International workshop Strong Microwaves in plasmas, Russia,Moscow-N. Novgorod-Moscow, 2002:901 - 910.[7]Nguyen K T, Levush B, Antonsen T M, et al.. Modeling of gyroklystrons with MAGY[J].IEEE Trans. on Plasma Sci.2000,28(3):867-[8]Chu K R. Theory of electron cyclotron maser interaction in a cavity at the harmonic frequencies[J].Phys. Fluids.1978, 21(12):2354-[9]Nusinovich G S, Dumbrajs O. Two-harmonic prebunching of electrons in multicavity gyrodevices[J].Phys. Plasmas.1995, 2(2):568-[10]Calame J P, Abe D K. Applications of advanced materials technologies to vacuum electronics devices. Proc. IEEE. 1999,87(5): 840 - 864.[11]McNally J D, McDermott D B, Luhmann N C, Jr.. Thirdharmonic TE411 gyroklystron amplifier[J].IEEE Trans. on Plasma Sci.1998, 26(3):496-[12]Nusinovich G S, Sinitsyn O V, Rodgers J, Granatstein V L. Comparison of two gyroklystron concepts: frequency multiplication versus operation at a given cyclotron harmonic. Proc. Third IEEE Int. Vacuum Electronics Conf., California, 2002:87 - 88.
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