专题:Electromagnetic Simulation and Numerical Methods

This cluster of papers focuses on the development and analysis of Finite-Difference Time-Domain (FDTD) methods for simulating electromagnetic wave propagation. It includes research on Discontinuous Galerkin methods, Perfectly Matched Layers, stability and dispersion analysis, high-order schemes, and unconditionally stable algorithms for time-domain simulations of Maxwell's equations in complex media.
最新文献
Computational Approach for Solving Fredholm Integral Equations

book-chapter Full Text OpenAlex

Discontinuous Galerkin schemes for master equations modeling open quantum systems

article Full Text OpenAlex

A principal mixed-order moments method for CKMS in dimension reduction

article Full Text OpenAlex

Hybrid IE-FVFD Method for Three Dimensional Electromagnetic Scattering Problems

article Full Text OpenAlex

Numerical and Analytical Methods for Complex Electromagnetic Media

article Full Text OpenAlex

On the stability analysis of the perfectly matched layer for the elastic wave equation in layered media

article Full Text OpenAlex

Electromagnetic-Thermal Co-Simulation via Divide-and-Conquer PINNs

article Full Text OpenAlex

Parallelization of Faber Polynomial Based Propagators for Laser Applications

article Full Text OpenAlex

A Stable Conservative Lagrange-Galerkin Method for Convection Equations Based on Curved-Element Mesh Intersection

preprint Full Text OpenAlex

A Stable FDTD Subgridding Method for Thin PEC Sheet Structure Modeling

article Full Text OpenAlex

近5年高被引文献
Computational Electrodynamics

book Full Text OpenAlex 883 FWCI10.848

Transmission-line modeling method - TLM

book-chapter Full Text OpenAlex 564 FWCI7.49

Notes on Perfectly Matched Layers (PMLs)

preprint Full Text OpenAlex 163 FWCI0

The deal.II library, Version 9.3

article Full Text OpenAlex 141 FWCI19.413

Basix: a runtime finite element basis evaluation library

article Full Text OpenAlex 128 FWCI20.582

The deal.II library, Version 9.4

article Full Text OpenAlex 126 FWCI19.594

A nonlocal physics-informed deep learning framework using the peridynamic differential operator

article Full Text OpenAlex 115 FWCI9.817

A comparative review of peridynamics and phase-field models for engineering fracture mechanics

review Full Text OpenAlex 114 FWCI4.013

A micropolar peridynamic model with non-uniform horizon for static damage of solids considering different nonlocal enhancements

article Full Text OpenAlex 112 FWCI12.425

Phase-field cohesive zone modeling of multi-physical fracture in solids and the open-source implementation in Comsol Multiphysics

article Full Text OpenAlex 101 FWCI10.377