然后,采用一种基于模匹配过程的横向散射矩阵方法,系统分析了微带导波结构的特征值问题。
Then, a transverse scattering matrix approach based on mode matching technique is used to analyze the eigenvalue problem of microstrip guiding wave structures.
在深入分析目标极化回波的基础上,针对互易性目标,提出了一种基于交叉极化分量相位对齐的散射矩阵校准方法。
A method of measuring and calibration based on aligning the phase of the cross-polarization of the scattering matrix is proposed.
它为研究计算飞机进气道的RCS或极化散射矩阵,以及波导的不连续性提供了一个有效方法。
According to the research results obtained, the polarized scattering matrix or RCS of the inlet of an aircraft and the non continuity of the waveguide can be calculated.
分析采用多模散射矩阵的方法,计算速度快、精度高。
The analysis is based on multi-mode scattering matrix method with which high calculation speed and accuracy can be achieved.
关于介质谐振腔和微带线耦合的S参数的求解方法,本文采用了数值求解的方法直接求得其散射矩阵。
The exact s parameter for the coupling of DR and micro strip line is calculated by the numerical method.
本文用T矩阵与场方程叠加相结合的方法,系统研究任意方位双球粒子体系散射矩阵各元素随两球球心的间距变化规律。
Light scattering matrix of random oriented two spheres system is studied extensively by using the t matrix method and the principle of superposition.
该方法的特点是极化散射矩阵和终端反射系数可分解后分别计算,便于叠加各种进气道构型和不断积累计算模型。
The polarization scattering matrix of the target is matched with eight specific scatterers, and a classification algorithm is presented based on the match angle to classify the targets.
本文利用散射矩阵和传输矩阵等方法研究了半导体异质结量子阱和一维光晶格体系中的量子输运特性,为设计和实现具有优良性能的量子过滤器件提供理论依据。
Our arm is to explore the physical mechanisms of the effects, and to supply physical models and make theoretical validity in designing novel quantum filtering devices with better properties.
结果对掠入射时的雷达目标识别具有参考意义,该方法可以推广到计算任意边缘形状平板的散射矩阵。
The numerical evaluation shows that the formula is accurate and reliable. The result is referential to radar target identification with oblique incident ray. The method can be eas...
目前测量相参激励下二端口网络输入阻抗常用的方法是,先用二端口网络分析仪测量网络的散射矩阵S,再将散射矩阵S转化为阻抗矩阵Z,最后求出不同相参激励下各端口的输入阻抗。
The common measurement of the two-port network'input impedance is to measure the S parameter, then Z parameter is calculated by the relation of S and Z, finally the input impedance is gained by the Z.
我们介绍了一些常用的数值模拟方法,包括含时有限差分法、劈裂算符法、不含时散射矩阵法等。
We present some usual numerical methods including Finite-Difference method, Split-Operator method and Time-independent-Scattering-Matrix etc.
我们介绍了一些常用的数值模拟方法,包括含时有限差分法、劈裂算符法、不含时散射矩阵法等。
We present some usual numerical methods including Finite-Difference method, Split-Operator method and Time-independent-Scattering-Matrix etc.
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