A 3D numerical simulation to study thesystem of gyrotron

Meng-Zhong, Xia; Liu, Dagang; Yang, Yupei; Peng, Kai; Yang, Chao; Liu, Laqun; Wang, Huihui

doi:10.7498/aps.62.111301

Acta Phys. Sin.

2013

DOI: 10.7498/aps.62.111301

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A 3D numerical simulation to study thesystem of gyrotron

Xia Meng-Zhong¹,

Dagang Liu²,

Yupei Yang³

et al.

Abstract: In order to break the limitation of gyrotron emission producing the ideal electron beam in the traditional gyrotron numerical simulation, this paper on the basis of theoretical analysis of structural parameters for the 94 GHz double-anode magnetron injection electron gun, by optimizing the grid plot of conformal FDTD algorithm, obtains the high-performance electron beam of the horizontal and vertical velocity ratio of 1.42 and the maximum velocity spread of 5.92%, By using the optimized electron gun to replace… Show more

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3D numerical simulations of the 110 GHz, 220 GHz coaxial cavity double-beam gyrotron

Meng-Zhong¹,

Yang²,

Liu³

et al. 2013

Acta Phys. Sin.

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Since to break the limitation of traditional single anode magnetron injection electron gun can only produce a lower power, this paper, based on an independent research and development of particle simulation software CHIPIC, will take the 110 GHz, 220 GHz coaxial cavity double-beam gyrotron for full three-dimensional numerical simulation study. By theoretical analysis for the initial parameters of the coaxial double-beam electron gun and to optimize the design by CHIPIC, we obtain the high-performance electron beam with the horizontal and vertical velocity ratio of 1.0 and the maximum velocity spread of 5.4%, and use the optimized electron gun to replace the traditional gyrotron emission for numerical simulation of the 110 GHz, 220 GHz gyrotron system, as well as the four-process parallel MPI in computing. Finally we obtain that the double bands are 110 and 220 GHz respectively, a TE02 mode, and the average output power about 70 kW. The efficiency can reach 8.75% for the high performance double-beam gyrotron oscillating tube.

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3D numerical simulations of the 110 GHz, 220 GHz coaxial cavity double-beam gyrotron

Meng-Zhong¹,

Yang²,

Liu³

et al. 2013

Acta Phys. Sin.

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Analysis of a 94 GHz, TE6,2 Denisov laucher

Zhang¹,

Shen²,

Niu³

et al. 2014

Acta Phys. Sin.

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The launcher is an important component of the gyrotron builded-in quasi optical convertor. The propagate characteristics of high order modes in volume waveguide are analyzed in this paper based on geometric optical theory. The waveguide coupling equations and the corresponding coupling coefficients of the modes in the perturbation waveguide are derived based on the mode coupling theory. The power distribution in the perturbation waveguide and the field on the wall are analyzed by the numerical calculation code which is written in MATLAB language. The 3D simulation software can be used to verity the numerical result. As an example, a Denisov launcher of 94 GHz, TE6,2 is designed, and the numerical simulation result shows that the conversion efficiency is more than 98%, The hot-test experimental results show that the profile of output field is well consistent with the numerical result.

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A 3D numerical simulation to study thesystem of gyrotron

Cited by 2 publications

References 3 publications

3D numerical simulations of the 110 GHz, 220 GHz coaxial cavity double-beam gyrotron

3D numerical simulations of the 110 GHz, 220 GHz coaxial cavity double-beam gyrotron

Analysis of a 94 GHz, TE6,2 Denisov laucher

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