Numerical Simulation Method of Microwave Gas Discharge in Waveguide Devices

A technology of gas discharge and waveguide devices, which is applied in the fields of electrical digital data processing, instruments, and special data processing applications, etc. It can solve the problems of complex object structure, long calculation time, and low calculation accuracy, and achieve protection simulation and pre-production Design, shorten the design cycle, reduce the effect of calculation time

A technology of gas discharge and waveguide devices, which is applied in the fields of electrical digital data processing, instruments, and special data processing applications, etc. It can solve the problems of complex object structure, long calculation time, and low calculation accuracy, and achieve protection simulation and pre-production Design, shorten the design cycle, reduce the effect of calculation time

CN104679920BActive Publication Date: 2017-12-12NANJING UNIV OF SCI & TECH
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  • Numerical Simulation Method of Microwave Gas Discharge in Waveguide Devices
  • Numerical Simulation Method of Microwave Gas Discharge in Waveguide Devices
  • Numerical Simulation Method of Microwave Gas Discharge in Waveguide Devices

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Embodiment Construction

[0020] The present invention will be described in further detail below in conjunction with the accompanying drawings.

[0021] The invention provides a numerical simulation method for microwave gas discharge of a waveguide device. Combined with the accompanying drawings below, with figure 1 The shown device with a waveguide structure with a slot is taken as an example, and the specific steps of the present invention are further described in detail.

[0022] see figure 1 The cross-sectional schematic diagram of the waveguide structure with slots is shown, and the geometric dimensions of the model are as follows: BJ-100 waveguide model is used, the interior is filled with argon, the pressure is 3.9Torr, the long side of the waveguide a=22.86mm, the short side of the waveguide b=10.16mm, and the total length of the waveguide is l =27.45mm, the center distance of the resonant element is 9.15mm, the discharge electrode is a pair of rectangular parallelepipeds, the side length a1=...

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Abstract

The invention discloses a microwave gas discharge numerical simulation method of a waveguide device. The method establishes a fluid model of a microwave gas discharge in a waveguide structure, and performs accurate numerical simulations of electron density, electron fluid velocity and average electron energy in the process of gas breakdown. Through the analysis, the law of electric field intensity and electron density at different observation points with time can be obtained in the case of gas discharge in complex structure waveguide devices with different geometric shapes. Based on the time-domain spectral element method, the present invention can realize the modeling of waveguide devices with arbitrary complex structures; the generated mass matrix is ​​a block diagonal matrix, and the inverse matrix can be directly obtained, which greatly reduces the calculation time; at the same time, the method of numerical simulation can Avoid repeated experiments to obtain the internal electric field distribution and electron density of waveguide devices, obtain the breakdown threshold, shorten the design cycle, and save design costs. It is very suitable for effective simulation design and numerical simulation of complex waveguide devices with discontinuous structures .

Description

technical field [0001] The invention belongs to the simulation technology of electromagnetic characteristics involving multiple physical fields, in particular to a novel numerical simulation method for analyzing gas discharge breakdown of waveguide structure microwave devices. Background technique [0002] With the rapid development of space technology, the circuit integration of electronic equipment is getting higher and higher, and the operating frequency of microwave devices is constantly increasing; at the same time, with the continuous maturity of high-power pulse generator technology, its output power can reach the order of tens of Gw. The numerical analysis and computer simulation of the microwave breakdown and gas discharge phenomena of microwave devices with different gas-filled space waveguide structures are increasingly valued by scientific research institutions, and it is one of the hot problems in the field of space technology and high-power pulses. The research...

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Application Information

Patent Timeline
12 Dec 2017
Publication
CN104679920B
IPC
G06F17/50
Inventors
陈如山; 丁大志