需要注意的是,得到的色散方程可以分解为两个表达式的乘积。
It is important to notice that the resulting dispersion equation is factorizable in the product of two expressions.
并由此推出矩形栅的场分布,色散方程和耦合阻抗。
From those, we also obtain the distributing of field, dispersive function, and coupling impedance of rectangle grating structure.
重点研究了利用并矢格林函数求解同轴结构中的色散方程。
Using Dyadic Green Function, the dispersive equations of co-ordinate structures are studied in this paper.
求得了两种状态下的脉塞色散方程,并进行了详细的讨论。
The dispersion equation has been derived and analyzed in detail.
本文从色散方程出发,导出了回旋磁控管的小信号增益表达式。
Starting from the dispersion relationship of gyro magnetron, the expression of small-signal gain has been derived.
给出了求解具有周期边界条件色散方程近似解的交替分组迭代法。
The alternating group iterative method for the dispersive equation with periodic boundary condition is presented.
推导两种情况下的场分布表达式及色散方程,并对结果进行数值模拟。
The expressions of field distribution and dispersion equations in two conditions are derived, and the results are numerically simulated.
应用纵向分量法推导出了完全填充手征等离子体金属圆波导的色散方程。
In this paper, using the longitudinal propagating fields method the dispersion equation are derived for the fully filled chiroplasma cylindrical waveguide.
给出了两种色散方程并研究了该波导各模式截止频率与芯区手征导纳的关系。
Two kinds of dispersion equations are given and the relation between the cutoff frequency and core chiral admittance is studied.
该文利用转移矩阵方法导出了多沟道波导和多量子阱波导的TM模式色散方程。
In this paper, we have deduced the TM mode dispersion equations of the multi-channel waveguide and the multi-quantum well optical waveguides by using this method.
导出了非均匀等离子体中线性波的色散方程,并在一些特殊情况下进行了讨论。
The general dispersion relation of the linear waves and its reduced form in certain particular eases are obtained.
本文从单粒子模型出发,导出了考虑相对论能量因子一级扰动量影响的色散方程。
In this paper, on the basis of a single-particle model, the dispersion equation is obtained after considering the first perturbation term of relativistic energy factor.
以栅网结构为例,对色散方程进行了数值求解和误差分析,获得了该方法适用范围。
For illustration, the dispersive equations of the foil structure are solved by the numerical method, and errors are analyzed, and the applicable additions are given.
本结果可在计算方解石色散特性时使用,本方法可在拟合其它材料的色散方程时使用。
The results can be used to calculate dispersive properties of calcite and the method can be used to obtain fitting formulas for other material.
考虑角向空间谐波,建立了有限厚度翼片加载螺旋线慢波结构的模型,推导出色散方程。
Considering azimuthal space harmonics, the finite size vane model is suggested for vane-loaded helical slow-wave structures in this paper.
最后,由电子运动方程出发,推导出了简化了的螺旋波纹波导回旋行波管的注波互作用色散方程。
Finally, the simplified beam-wave interaction dispersion equation of Gyro-TWT with a spiral corrugated waveguide was obtained from the equations for electronic locomotion.
根据KTP晶体不同的色散方程,对该匹配角进行了数值计算;并比较了LBO晶体的相关特性。
We calculate the best phase-matching angle according to the Sellemier equations of KTP and compare the quality of LBO.
本文提出了新的保角变换FDTD算法,推导了保角变换FDTD算法的时间稳定性和数值色散方程。
This paper proposes a new algorithm based on conformal mapping and FDTD method, and derives the numerical stability and numerical dispersion equations of conformal mapping FDTD algorithm.
在亚光速区,对处于相对论性振荡的纵等离激元色散方程进行数值求解,得到了朗道阻尼系数的数值解。
The landau damping rate is obtained by solving the dispersion equation of relativistic longitudinal plasmons with the sub-light-velocity numerically.
利用两流体模型、小扰动原理和线性一阶齐次方程组有解的条件,得到了气液泡状流型下的压力波色散方程。
Using two-flow model, small perturbation theory and solvable conditions of one-order linear equations, a dispersion equation of pressure wave in horizontal air-liquid bubbly flow was proposed.
引入薄环形电子注,首次建立了脊加载同轴膜片圆波导的注波互作用线性理论,得到小信号条件下的色散方程。
The 'hot' dispersion equation of the coaxial ridge-disk-loaded cylindrical waveguide TWT with an annular electron beam can be firstly obtained according to self-consistent field theory.
本文在考虑等离子体厚度效应的情况上,详尽地推导了充填圆环状等离子体的圆柱波导中TM模慢电磁波的色散方程;
The dispersion equation of TM mode slow wave in a cylindrical waveguide having an annular plasma sheet is derived under the condition of plasma thickness effect.
计算结果与CST - MWS的模拟结果吻合良好,说明所提出的计算等效相对介电常数的方法和计算色散方程的方法对环板慢波结构是切实可行的。
The results manifest that the dielectric-loading can lower the operating voltage of the ring-plane slow-wave structure. Good accordance was obtained between results by this method and that of CST-MWS.
计算结果与CST - MWS的模拟结果吻合良好,说明所提出的计算等效相对介电常数的方法和计算色散方程的方法对环板慢波结构是切实可行的。
The results manifest that the dielectric-loading can lower the operating voltage of the ring-plane slow-wave structure. Good accordance was obtained between results by this method and that of CST-MWS.
应用推荐