Effective suppression of pulse shortening in a relativistic backward wave oscillator

Chen, Yibing; Song, Zhimin; Wu, Ping; Fan, Zhiqiang; Zhang, Yuchuan; Teng, Yan; Sun, Jun

doi:10.1063/1.4977811

Cited by 22 publications

(2 citation statements)

References 24 publications

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“…Driven by scientific and industrial applications, C-band HPM sources have been rapidly developed in recent years. Under a strong confining magnetic field, C-band high-power microwave sources have made significant progress in high-efficiency and high-power [8], [9], [10], [11], [12]. For example, an output microwave with a power of 4.…”

Section: Introductionmentioning

confidence: 99%

Improved Power Capacity in a Low-Magnetic Field and High-Efficiency Transit-Time Oscillator by a Double-Gap Extractor

Deng

Dang

et al. 2023

IEEE Access

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With an increase in the input power of a low-magnetic field and high-efficiency transit-time oscillator, the deceleration electric field in the single-gap extractor increases sharply to output a higher-power microwave, resulting in radio frequency breakdown on the surface of the single-gap extractor. Thus, a doublegap extractor with an operating mode of π mode is introduced to reduce the electric field in this type of device. The double-gap extractor can extract electron energy in two stages and lengthen the deceleration distance. Therefore, the electron beam loses less energy at the same deceleration distance in the double-gap extractor, and a weaker deceleration electric field is generated in the double-gap extractor. Additionally, the modulation electric field in the device with a double-gap extractor is stronger for modulating electrons and can further increase the fundamental harmonic current, resulting in higher extraction efficiency. In simulations, the output power is 6.3 GW and the maximum electric field strength is 1.06 MV/cm in the initial model with a single-gap extractor. When the single-gap extractor is replaced by the double-gap extractor, the output power increases to 6.5 GW with a conversion efficiency of 40% and a guiding magnetic field of 0.6 T. The maximum electric field strength decreases to 817 kV/cm, indicating an enhancement in the power capacity of the device.INDEX TERMS High-power microwaves, transit-time oscillator, improved power capacity, deceleration electric field.

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Section: Introductionmentioning

confidence: 99%

Improved Power Capacity in a Low-Magnetic Field and High-Efficiency Transit-Time Oscillator by a Double-Gap Extractor

Deng

Dang

et al. 2023

IEEE Access

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“…Among these factors, radio frequency (RF) breakdown in slow-wave structures (SWSs) is considered as the best-known factor. Besides, RF breakdown may contribute to irreversible damage on structure surfaces, and seriously deteriorates the stability and reliability of this device [19][20][21][22]. It is generally believed that field electron emission (FEE) is closely associated with breakdown [23,24].…”

Section: Introductionmentioning

confidence: 99%

Experimental study on the influence of grain boundary on breakdown in relativistic backward wave oscillator

Tan,

Wu,

Sun

et al. 2023

Phys. Scr.

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The presence of radio frequency (RF) breakdown seriously degrades the performance of relativistic backward wave oscillator (RBWO) and affects its lifetime. In this paper, the influence of grain boundary on RF breakdown in an X-band RBWO has been experimentally investigated. Firstly, titanium with different grain sizes has been prepared using a high-temperature annealing method before its field emission characteristics are studied by a field emission test system. The experimental results indicate that the segregation effect of the impurities at the position of the grain boundary may become more pronounced as the grain size increases, which results in a significant improvement in the field emission performance of titanium. A high-power microwave experimental platform is then set up, and the influence of the grain boundary of titanium on RF breakdown has been revealed. The shortening of the microwave pulses is more serious with the increase of the grain size, and the corresponding breakdown traces appearing in the high-frequency structures become more apparent. Therefore, developing fine-grained and single-crystal metallic materials may be an important method for suppressing RF breakdown in RBWOs.

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Applications of Surface Wave Propagation

Гірка

Thumm

2022

Surface Flute Waves in Plasmas

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Effective suppression of pulse shortening in a relativistic backward wave oscillator

Cited by 22 publications

References 24 publications

Improved Power Capacity in a Low-Magnetic Field and High-Efficiency Transit-Time Oscillator by a Double-Gap Extractor

Improved Power Capacity in a Low-Magnetic Field and High-Efficiency Transit-Time Oscillator by a Double-Gap Extractor

Experimental study on the influence of grain boundary on breakdown in relativistic backward wave oscillator

Applications of Surface Wave Propagation

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