Efficient generation of multi-gigawatt power by an X-band dual-mode relativistic backward wave oscillator operating at low magnetic field

Xiao, Renzhen; Shi, Yanchao; Wang, Huida; Zhang, Guangshuai; Gui, Youyou; Song, Zhimin; Bai, Xianchen; Zhang, Yuchuan; Sun, Jun

doi:10.1063/5.0002361

Cited by 39 publications

(7 citation statements)

References 36 publications

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“…In recent years, there have been many research reports in this area. [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16] A transit-time oscillator (TTO) is a type of HPM source that has the potential to be miniaturized and compact due to its simple structure, which can work efficiently with a low external guiding magnetic field. This kind of device has attracted increasing interest from researchers.…”

Section: Introductionmentioning

confidence: 99%

Experimental research based on a C-band compact transit-time oscillator with a novel diode loading an embedded soft magnetic material and shielding structure

Ling

et al. 2023

Chinese Phys. B

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In order to reduce the external magnetic field and improve the conversion efficiency of high-power microwave generation devices with low external magnetic field, a novel diode with embedded soft magnetic and shielding structure is proposed. The soft magnetic material is designed to enhance the local magnetic field in the diode region. Besides, the diode applies a shielding structure which can reduce the radial electric field. From simulation research, it is found that the emission and transmission quality of the electron beam with low magnetic field is greatly improved when loading this diode. Through simulation research, it is verified that the diode can increase the conversion efficiency of the TTO from 30% to 36.7%. In our experimental study, under the conditions of a diode voltage of 540kV and a current of 10.5kA, the output microwave power is 1.51GW when loading the novel diode and the microwave frequency is 4.27GHz when an external guiding magnetic field of 0.3T is applied. The corresponding conversion efficiency is improved from 20.0% to 26.6%, which is 6.6% higher than the device loaded with a conventional diode. Our experiments have verified that this novel diode can effectively improve the conversion efficiency of high-power microwave sources operating with low magnetic field, and contribute to the miniaturization and compactness of high-power microwaves.

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Section: Introductionmentioning

confidence: 99%

Experimental research based on a C-band compact transit-time oscillator with a novel diode loading an embedded soft magnetic material and shielding structure

Ling

et al. 2023

Chinese Phys. B

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“…While high-power lasers have already been available for a long time, the production of high-power microwave (HPM) sources is more recent [21][22][23]. In a recent study [23,24], an HPM pulsed source of up to 4.6 GW and of frequency 9.96 GHz has been achieved in experiments. These HPM sources have stimulated interest in the study of nonlinear effects in microwave plasma interaction.…”

Section: Introductionmentioning

confidence: 99%

Harmonic generation in magnetized plasma for electromagnetic wave propagating parallel to external magnetic field

Trishul

Juneja

Goswami

et al. 2023

J. Phys. D: Appl. Phys.

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The harmonic generation has always been of fundamental interest in studying the nonlinear nature of any physical system. In the present study, Particle - In - Cell (PIC) simulations have been carried out to explore the harmonic generation of Electromagnetic waves in a magnetized plasma. The EM wave propagation is chosen to be parallel to the applied external magnetic field. The simulations show the excitation of odd higher harmonics of RCP (Right circularly polarized) and LCP (Left circularly polarized) when the incident wave is linearly polarised. The harmonic generation is maximum when the incident EM wave frequency matches the electron cyclotron frequency. When the incident EM wave has a circular polarization, no harmonics get excited. A theoretical understanding of these observations has also been provided. The studies thus show that by appropriately tailoring of plasma parameters EM waves of higher frequencies and desired nature of circular polarization can be generated.

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“…Since the first HPM experiment based on a RBWO was conducted in 1970, the output power and single pulse energy of this device have both increased tremendously [7][8][9][10][11]. The X-band microwave output with a power of 7.6 GW has been experimentally achieved by proposing a klystron-like RBWO, while severe pulse shortening has occurred under this microwave power [12]. The phenomenon of pulse shortening is a critical bottleneck that prevents the achievement of higher output power and longer pulse width by RBWOs [13][14][15].…”

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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Efficient generation of multi-gigawatt power by an X-band dual-mode relativistic backward wave oscillator operating at low magnetic field

Cited by 39 publications

References 36 publications

Experimental research based on a C-band compact transit-time oscillator with a novel diode loading an embedded soft magnetic material and shielding structure

Experimental research based on a C-band compact transit-time oscillator with a novel diode loading an embedded soft magnetic material and shielding structure

Harmonic generation in magnetized plasma for electromagnetic wave propagating parallel to external magnetic field

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

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