采用广义变分原理,基于矢量基函数详细推导了大地电磁三维矢量有限元方程。为了提高计算精度和效率,应用直接法强加边界条件改善总体系数矩阵的条件数,同时使用SSOR(symmetric successive over relaxation)预处理的双共轭稳定梯度法求...采用广义变分原理,基于矢量基函数详细推导了大地电磁三维矢量有限元方程。为了提高计算精度和效率,应用直接法强加边界条件改善总体系数矩阵的条件数,同时使用SSOR(symmetric successive over relaxation)预处理的双共轭稳定梯度法求解复对称大型稀疏线性方程组。并利用国际标准模型与相关参考文献的结果进行了对比,验证了算法的准确性。对一个典型的三维低阻体模型进行正演,得到了不同测线的视电阻率和相位断面图,并与二维正演结果进行对比分析。结果表明:在x方向测线上,ρ_(yx)变化幅度较ρ_(xy)小,中心测线上的ρ_(yx)和ρ_(xy)响应均与二维TM模式条件下的响应特征相似。展开更多
In this paper, a polymer electro-optic modulator is designed and simulated using the full vectorial finite element method. First order edge elements are used in finite element implementation, and the finite element te...In this paper, a polymer electro-optic modulator is designed and simulated using the full vectorial finite element method. First order edge elements are used in finite element implementation, and the finite element technique is used to obtain modulator response thoroughly. From the numerical analysis, frequency dispersions of modulator's important parameters, such as microwave effective index nm , microwave characteristic impedance ZC and microwave loss a, are extracted. Our design exhibits electrical bandwidth of 260 GHz and drive voltage of about 2.8 V.cm in this frequency.展开更多
A novel polarization splitter based on octagonal dual-core photonic crystal fiber(O-D-PCF) is proposed. The impacts of several fiber parameters on the coupling characteristics of the polarization splitter are investig...A novel polarization splitter based on octagonal dual-core photonic crystal fiber(O-D-PCF) is proposed. The impacts of several fiber parameters on the coupling characteristics of the polarization splitter are investigated by full-vectorial finite element method(FV-FEM) in detail. Through optimizing the fiber configuration, a 4.267-mm-long polarization splitter with a bandwidth of 37 nm is achieved, and its extinction ratio(ER) is as high as 81.2 d B at the wavelength of 1.55 μm. Compared with the hexagonal dual-core photonic crystal fiber(H-D-PCF) based polarization splitter, both ER and bandwidth of the O-D-PCF based one are effectively improved.展开更多
文摘采用广义变分原理,基于矢量基函数详细推导了大地电磁三维矢量有限元方程。为了提高计算精度和效率,应用直接法强加边界条件改善总体系数矩阵的条件数,同时使用SSOR(symmetric successive over relaxation)预处理的双共轭稳定梯度法求解复对称大型稀疏线性方程组。并利用国际标准模型与相关参考文献的结果进行了对比,验证了算法的准确性。对一个典型的三维低阻体模型进行正演,得到了不同测线的视电阻率和相位断面图,并与二维正演结果进行对比分析。结果表明:在x方向测线上,ρ_(yx)变化幅度较ρ_(xy)小,中心测线上的ρ_(yx)和ρ_(xy)响应均与二维TM模式条件下的响应特征相似。
文摘In this paper, a polymer electro-optic modulator is designed and simulated using the full vectorial finite element method. First order edge elements are used in finite element implementation, and the finite element technique is used to obtain modulator response thoroughly. From the numerical analysis, frequency dispersions of modulator's important parameters, such as microwave effective index nm , microwave characteristic impedance ZC and microwave loss a, are extracted. Our design exhibits electrical bandwidth of 260 GHz and drive voltage of about 2.8 V.cm in this frequency.
基金supported by the National Natural Science Foundation of China(No.61405096)
文摘A novel polarization splitter based on octagonal dual-core photonic crystal fiber(O-D-PCF) is proposed. The impacts of several fiber parameters on the coupling characteristics of the polarization splitter are investigated by full-vectorial finite element method(FV-FEM) in detail. Through optimizing the fiber configuration, a 4.267-mm-long polarization splitter with a bandwidth of 37 nm is achieved, and its extinction ratio(ER) is as high as 81.2 d B at the wavelength of 1.55 μm. Compared with the hexagonal dual-core photonic crystal fiber(H-D-PCF) based polarization splitter, both ER and bandwidth of the O-D-PCF based one are effectively improved.