About Ming Dong Ming Dong Ph.D. Student, Electrical and Computer Engineering computational electromagnetics computational physics Education Ph.D. student, Electrical and Computer Engineering, Division of Computer, Electrical and Mathematical Science and Engineering (CEMSE), King Abdullah University of Science and Technology (KAUST), Thuwal, Saudi Arabia, 2019-present M.S., Electrical Engineering, King Abdullah University of Science and Technology (KAUST), Thuwal, Saudi Arabia, 2017-2018 B.S., Electronic Information Science and Technology, Lanzhou University, Lanzhou, China Research Interests Computational physics (electromagnetics, semiconductor devices, multiphysics modeling) Application of TD-FEM solver and DGTD solver Events Presented Events Oct 22 - Oct 28, 2023 Transient Numerical Schemes in Electromagnetics: From Electromagnetic Scattering to Multiphysics Simulation Ming Dong, Ph.D. Student, Electrical and Computer Engineering Oct 25, 13:00 - 15:00 B3 L5 R5220 Simulation tools capable of transient electromagnetic analysis are essential for designing and optimizing electromagnetic, photonic, and optoelectronic devices. In recent years, time-domain differential equation based solvers have found widespread use due to their advantages over integral equation counterparts in analyzing transient electromagnetic field/wave interactions and multiphysics problems. This dissertation develops a group of time-domain differential equation solvers for analyzing transient electromagnetic scattering from penetrable objects and multiphysics phenomena in optoelectronic devices. In addition to providing detailed formulations of these solvers, this dissertation presents numerical examples which demonstrate their accuracy, efficiency, and applicability to real-life problems.
Transient Numerical Schemes in Electromagnetics: From Electromagnetic Scattering to Multiphysics Simulation Ming Dong, Ph.D. Student, Electrical and Computer Engineering Oct 25, 13:00 - 15:00 B3 L5 R5220 Simulation tools capable of transient electromagnetic analysis are essential for designing and optimizing electromagnetic, photonic, and optoelectronic devices. In recent years, time-domain differential equation based solvers have found widespread use due to their advantages over integral equation counterparts in analyzing transient electromagnetic field/wave interactions and multiphysics problems. This dissertation develops a group of time-domain differential equation solvers for analyzing transient electromagnetic scattering from penetrable objects and multiphysics phenomena in optoelectronic devices. In addition to providing detailed formulations of these solvers, this dissertation presents numerical examples which demonstrate their accuracy, efficiency, and applicability to real-life problems.
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