高功率微波土壤击穿的数值验证研究?

唐涛

doi:10.7498/aps.64.045203

物理学报

高功率微波土壤击穿的数值验证研究?

唐涛. 2015: 高功率微波土壤击穿的数值验证研究?, 物理学报, null(4): 045203. doi: 10.7498/aps.64.045203

引用本文:

唐涛. 2015: 高功率微波土壤击穿的数值验证研究?, 物理学报, null(4): 045203. doi: 10.7498/aps.64.045203

Tang Tao. 2015: Numerical validation study of high p ower microwave soil breakdown, Acta Physica Sinica, null(4): 045203. doi: 10.7498/aps.64.045203

Citation:

Tang Tao. 2015: Numerical validation study of high p ower microwave soil breakdown, Acta Physica Sinica, null(4): 045203. doi: 10.7498/aps.64.045203

高功率微波土壤击穿的数值验证研究?

唐涛

成都信息工程学院电子工程学院,成都,610225

通讯作者: 唐涛

Numerical validation study of high p ower microwave soil breakdown

Tang Tao

Corresponding author: Tang Tao

摘要: 高功率微波在土壤中传播时，会引起土壤击穿电离而导致土壤电阻率的非线性变化，土壤电阻率的变化又将反作用于传播过程，加剧高功率微波衰减，影响其能量传输效率。通过对土壤动态电离过程的分析，结合Maxwell方程组构建了高功率微波土壤传播模型，采用时域有限差分法对该模型进行数值验证。数值结果显示了高功率微波在土壤中传播、衰减等物理图像，以及土壤电阻率的非线性变化过程。理论分析验证了这些数值结果。
- 高功率微波 /
- 传播模型 /
- 土壤电离 /
- 数值验证
Abstract: The nonlinear changes of soil resistivity will be caused when the high power microwave (HPM) propagates in soil, and these changes in turn counteract the propagation process so that the energy transmission e?ciency of the HPM is reduced. By analyzing the dynamic ionization process of soil, a HPM soil propagation model is constructed by combining the Maxwell equations. The model is numerically validated by using a finite difference time domain method. The numerical results show the physical processes of the HPM propagation and attenuation in soil and the nonlinear change process of soil resistivity. These numerical results are verified by a theoretical analysis.

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高功率微波土壤击穿的数值验证研究?

唐涛

通讯作者: 唐涛

成都信息工程学院电子工程学院,成都,610225

关键词:

摘要: 高功率微波在土壤中传播时，会引起土壤击穿电离而导致土壤电阻率的非线性变化，土壤电阻率的变化又将反作用于传播过程，加剧高功率微波衰减，影响其能量传输效率。通过对土壤动态电离过程的分析，结合Maxwell方程组构建了高功率微波土壤传播模型，采用时域有限差分法对该模型进行数值验证。数值结果显示了高功率微波在土壤中传播、衰减等物理图像，以及土壤电阻率的非线性变化过程。理论分析验证了这些数值结果。

English Abstract

Numerical validation study of high p ower microwave soil breakdown

Tang Tao

Corresponding author: Tang Tao

成都信息工程学院电子工程学院,成都,610225

Keywords:

Abstract: The nonlinear changes of soil resistivity will be caused when the high power microwave (HPM) propagates in soil, and these changes in turn counteract the propagation process so that the energy transmission e?ciency of the HPM is reduced. By analyzing the dynamic ionization process of soil, a HPM soil propagation model is constructed by combining the Maxwell equations. The model is numerically validated by using a finite difference time domain method. The numerical results show the physical processes of the HPM propagation and attenuation in soil and the nonlinear change process of soil resistivity. These numerical results are verified by a theoretical analysis.

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高功率微波土壤击穿的数值验证研究?

通讯作者: 唐涛

Numerical validation study of high p ower microwave soil breakdown

Corresponding author: Tang Tao

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高功率微波土壤击穿的数值验证研究?

通讯作者: 唐涛

English Abstract

Numerical validation study of high p ower microwave soil breakdown

Corresponding author: Tang Tao

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