A high efficiency Ku-band radial line relativistic klystron amplifier

Dang, Fangchao; Zhang, Xiaoping; Zhong, Huihuang; Zhang, Jun; Ju, Jinchuan

doi:10.1063/1.4958810

Physics of Plasmas

2016

DOI: 10.1063/1.4958810

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A high efficiency Ku-band radial line relativistic klystron amplifier

Fangchao Dang¹,

Xiaoping Zhang²,

Huihuang Zhong³

et al.

Abstract: To achieve the gigawatt-level microwave amplification output at Ku-band, a radial-line relativistic klystron amplifier is proposed and investigated in this paper. Different from the annular electron beam in conventional axial relativistic klystron amplifiers, a radial-radiated electron beam is employed in this proposed klystron. Owing to its radially spreading speciality, the electron density and space charge effect are markedly weakened during the propagation in the radial line drift tube. Additionally, the p… Show more

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Cited by 31 publications

References 18 publications

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Novel low-voltage subterahertz-range radial backward wave oscillator

Chen

Wang

2017

Physics of Plasmas

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To increase the output power of compact low-voltage subterahertz-range vacuum electron devices (VEDs) to hundreds of watts and overcome the difficulties of the fabrication and assembly, a novel low-voltage subterahertz-range radial backward wave oscillator (BWO), in which the electron beam emits radially inward and interacts with the slow wave structures (SWSs) machined on a planar plate, is presented in this paper. Compared to the VEDs where the axial electron beam or planar sheet electron beam is adopted, the dispersion curve of the proposed radial BWO is independent of the radius and azimuthal coordinate. Hence, the power capacity is increased by using the overmoded SWSs, and the azimuthal asymmetrical modes cannot be excited.

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Novel low-voltage subterahertz-range radial backward wave oscillator

Chen

Wang

2017

Physics of Plasmas

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Electron motion analysis of a radial-radiated electron beam in a radial-line drift tube with finite magnetic field conducted

2017

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Radial-radiated electron beam is widely employed in radial-line structure microwave devices. The quality of the electron beam has a crucial effect on the operating performance of these devices. This paper analyzes theoretically this electron motion in a radial-line drift tube with finite magnetic field conducted. The beam width, spatial period, and fluctuation amplitude are quantitatively analyzed with different beam current parameters. By the particle-in-cell simulation, we examine the theoretical analysis under the condition of a designed realistic coil configuration. It indicates that the derived beam envelope function is capable of predicting the radial-radiated beam trajectory approximately. Meanwhile, it is found that the off-axial z-direction magnetic field, in spite of its greatly slight amplitude, is also one necessary consideration for the propagation characteristic of the radial-radiated electron beam. Furthermore, the presented electron motion analysis may be instructive for the design of the electronic optical system of the radial-line structure microwave devices.

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A small-signal theory for the radial-line relativistic klystron amplifier

Dang

Zhang

Zhong

et al. 2017

Journal of Applied Physics

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A small-signal theory describing the electron beam modulation in the radial-line relativistic klystron amplifier (RL-RKA) is developed in this paper. We first derive theoretically the space-charge limited current, the dispersion relation of space-charge waves on the radial-radiated electron beam, and the beam coupling coefficient for the radial-line electromagnetic structure. Then, a small-signal theory is established to analyze the beam current bunching during the initial modulation period. With particle-in-cell simulations, the theoretical analysis is verified through observing the fundamental harmonic current of an input cavity in a previous Ku-band RL-RKA. More importantly, the presented small-signal theory can provide a theoretical guidance for the RL-RKA design.

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A high efficiency Ku-band radial line relativistic klystron amplifier

Cited by 31 publications

References 18 publications

Novel low-voltage subterahertz-range radial backward wave oscillator

Novel low-voltage subterahertz-range radial backward wave oscillator

Electron motion analysis of a radial-radiated electron beam in a radial-line drift tube with finite magnetic field conducted

A small-signal theory for the radial-line relativistic klystron amplifier

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