A compact S-band relativistic backward wave oscillator with a 2.5-period slow-wave structure

Zhang, Peng; Ge, Xingjun; Dang, Fangchao; Yang, Fuxiang; Deng, Rujin; Shu, Ting; He, Juntao

doi:10.1063/5.0127697

Physics of Plasmas

2022

DOI: 10.1063/5.0127697

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A compact S-band relativistic backward wave oscillator with a 2.5-period slow-wave structure

Peng Zhang

Xingjun Ge

Fangchao Dang

et al.

Abstract: Compact is a significant research direction of low-frequency high-power microwave devices. In this paper, a compact S-band relativistic backward wave oscillator is presented. The radial dimension of the device is reduced by utilizing the characteristic that the cutoff frequency of the fundamental mode (quasi-TEM mode) of the coaxial Slow-Wave Structure (SWS) is zero. Moreover, a coaxial extraction structure is designed to enhance its resonance characteristics to reduce the number of slow-wave structures. In ad… Show more

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2024

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Miniaturized and high-efficiency end-reflective coaxial cerenkov oscillator

Fan,

Zhang,

Cao

et al. 2024

J. Phys. D: Appl. Phys.

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High-power microwaves have extensive applications, but their practical implementation necessitates miniaturized and efficient devices. This paper introduces a novel miniaturized and highly efficient end-reflective coaxial Cerenkov device for high-power microwave generation. The design incorporates a coaxial collector structure that achieves total reflection of forward waves, significantly enhancing the end-feedback effect without increasing the structural length. Additionally, an integrated coaxial diffractive structure works synergistically with the strong end-feedback structure. This configuration not only enables highly efficient microwave output but also establishes a strong modulation field in the diode region, thereby facilitating effective electron beam modulation without extending the device length. Simulations demonstrate an output microwave power of 2.82 GW at 9.1 GHz, with a power conversion efficiency of 54%. Notably, the axial length of the beam-wave interaction region is only 2.6 λ, substantially shorter than that of conventional high-efficiency Cerenkov oscillators. The unique combination of the strong end-feedback coaxial structure and the coaxial diffractive output contributes to achieving both high efficiency and miniaturization in the generator.

show abstract

Miniaturized and high-efficiency end-reflective coaxial cerenkov oscillator

Fan,

Zhang,

Cao

et al. 2024

J. Phys. D: Appl. Phys.

View full text Add to dashboard Cite

show abstract

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A compact S-band relativistic backward wave oscillator with a 2.5-period slow-wave structure

Cited by 1 publication

References 22 publications

Miniaturized and high-efficiency end-reflective coaxial cerenkov oscillator

Miniaturized and high-efficiency end-reflective coaxial cerenkov oscillator

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