J-MMCT Best Paper Award for Pieter Decleer and Dries Vande Ginste

The Best Paper Award for papers published in IEEE Journal on Multiscale and Multiphysics Computational Techniquesin years 2021-2022 goes to Pieter Decleer and Prof. Dries Vande Ginste for the paper "A Hybrid EM/QM Framework Based on the ADHIE-FDTD Method for the Modeling of Nanowires", vol. 7, pp. 236-251, 2022.

Abstract

A new modeling formalism to compute the time-dependent behavior of combined electromagnetic (EM) and quantum mechanical (QM) systems is proposed. The method is geared towards highly multiscale geometries, which is vital for the future design of nanoelectronic devices. The advocated multiphysics modeling formalism leverages the alternating-direction hybrid implicit-explicit (ADHIE) finite-difference time-domain (FDTD) method for the EM fields and is combined with a novel ADHIE method for the EM potentials. Additionally, we tackle the QM problem using a new split real and imaginary part formulation that includes higher-order spatial differences and arbitrary time-dependent EM potentials. The validity of the proposed formalism is theoretically discussed by deriving its stability condition and calculating the numerical dispersion relation. Furthermore, the applicability of our modeling approach is proven through several numerical experiments, including a single-particle Maxwell-Schrödinger (MS) system as well as a many-particle Maxwell-Kohn-Sham (MKS) system within the time-dependent density-functional theory (TDDFT) framework. These experiments confirm that the novel ADHIE method drastically decreases the computation time while retaining the accuracy, leading to efficient and accurate simulations of light-matter interactions in multiscale nanoelectronic devices.

• Link to the Authors' Online Seminar
• Presentation