A hybrid finite-element / finite-difference method with implicit-explicit time stepping scheme for Maxwell's equations

机译：麦克斯韦方程组的隐式-显式时间步长混合有限元/差分方法

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A hybrid scheme for time-domain electromagnetic simulations, combining the explicit finite-difference time-domain (FDTD) method and the implicit finite-element time-domain (FETD) method, is developed. In the hybrid method, the FETD part uses the unconditionally stable Crank-Nicholson method; while the standard FDTD part employs staggered Cartesian grid for spatial discretization and the leap-frog scheme for time stepping. Non-conforming meshes are allowed between the FETD and the FDTD sub-domains. The hybrid method takes advantages of the modeling flexibility of the FETD method for complex structures and the efficiency of the FDTD method for simple structures. The hybrid implicit-explicit time stepping scheme allows time steps as long as the stability limit for the FDTD method, which can be much larger than the stability criterion of the explicit FETD scheme with small elements. Numerical examples demonstrate the efficiency of the proposed method.

机译：开发了一种用于时域电磁仿真的混合方案，形成了显式有限差分时域（FDTD）方法和隐含有限元时间域（FETD）方法。在混合方法中，FETD部件采用无条件稳定的曲柄 - Nicholson方法;虽然标准的FDTD部件采用交错的笛卡尔网格，用于空间离散化和跨越时间踩踏的跨越式计划。在FETD和FDTD子域之间允许不合格网格。混合方法采用FETD方法的柔性效果，以实现复杂结构的效率和用于简单结构的FDTD方法的效率。混合隐式显式时间踏步方案允许时间步骤允许时间步骤，只要FDTD方法的稳定性限制可以远大于具有小元素的显式FETD方案的稳定性标准。数值例证证明了所提出的方法的效率。

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《2011 IEEE International Conference on Microwave Technology Computational Electromagnetics》|2011年|p.481-484|共4页
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Zhu Bao; Chen Jiefu; Zhong Wanxie;
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中图分类微波与超高频技术;
关键词
Maxwell's equations; Riemann solver; finite-difference time-domain method; finite-element time-domain method; implicit-explicit time stepping; non-conforming mesh;

机译：Maxwell方程; Riemann求解器;时域有限差分法;时域有限元方法;隐式-显式时间步长;不合格网格;

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专利

1. A hybrid finite-element/finite-difference method with an implicit- explicit time-stepping scheme for Maxwell's equations [J] . B. Zhu, J. Chen, W. Zhong, International journal of numerical modelling . 2012,第5a6期

机译：麦克斯韦方程组的隐式-显式时间步长混合有限元/差分方法
2. Time-Domain Finite-Difference and Finite-Element Methods for Maxwell Equations in Complex Media [J] . Teixeira F. L. IEEE Transactions on Antennas and Propagation . 2008,第8期

机译：复杂介质中麦克斯韦方程组的时域有限差分和有限元方法
3. Implicit-explicit multistep finite-element methods for nonlinear convection-diffusion-reaction equations with time delay [J] . Zhang Gengen, Xiao Aiguo, Zhou Jie International journal of computer mathematics . 2018,第9a12期

机译：时滞非线性对流扩散反应方程的隐式-显式多步有限元方法
4. A hybrid finite-element / finite-difference method with implicit-explicit time stepping scheme for Maxwell's equations [C] . Zhu Bao, Chen Jiefu, Zhong Wanxie International Conference on Microwave Technology Computational Electromagnetics . 2011

机译：一种混合有限元/有限差分法，具有用于Maxwell等式的隐式显式时间踏步方案
5. Development and evaluation of novel finite-difference time-domain methods for solving Maxwell's equations. [D] . Sun, Guilin. 2005

机译：求解麦克斯韦方程组的新型时域有限差分方法的开发和评估。
6. Conservative finite-difference scheme for the problem of THz pulse interaction with multilevel layer covered by disordered structure based on the density matrix formalism and 1D Maxwell’s equation [O] . Vyacheslav A. Trofimov, Svetlana A. Varentsova, Irina G. Zakharova, 2012

机译：基于密度矩阵形式和一维麦克斯韦方程的无序结构覆盖的多层层太赫兹脉冲相互作用问题的守恒有限差分方案
7. Time-Domain Finite-Difference and Finite-Element Methods for Maxwell Equations in Complex Media [O] . O L. Teixeira, Senior Member 2012

机译：复杂介质中maxwell方程的时域有限差分和有限元方法
8. Uniform in Time Asymptotic and Numerical Methods for Propagation in Dielectric Exhibiting Fractional Relaxation and Efficient and Accurate Impedance Boundary Conditions for High-Order Numerical Schemes for the Time- Dependent Maxwell Equations [R] . Petropoulos, P. G. 2008

机译：电导传播的均匀时间渐近和数值方法表示时间依赖麦克斯韦方程组的高阶数值格式的分数弛豫和高效精确的阻抗边界条件

A hybrid finite-element / finite-difference method with implicit-explicit time stepping scheme for Maxwell's equations

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