Python wrapper for the Fullwave 2 simulation. Fullwave 2 is a high-fidelity, finite-difference time-domain (FDTD) ultrasound wave propagation simulation. It includes a comprehensive set of wave ...

Welcome to Module 2! In this module, we'll delve into the heart of computational electromagnetics – building our own FDTD code. We'll start with the fundamentals by implementing a 1D FDTD code in ...

This course, will be delivered on my LinkedIn blog, in a series of 5-minute lessons. It will delves deep into the world of computational electromagnetics (CEM) using the Finite-Difference Time-Domain ...

Wireless communication systems play an important role in the intelligent, unmanned, safe production and emergency rescue of coal mine 1. The wireless propagation environment in underground mine is ...

The finite-difference time-domain (FDTD) method is a widespread numerical tool for full-wave analysis of electromagnetic fields in complex media and for detailed geometries. Applications of the FDTD ...

The Windows version of the Python interpreter can be run from the command line the same way it’s run in other operating systems, by typing python or python3 at the prompt. But there’s a feature unique ...

Have you ever wished you could generate interactive websites with HTML, CSS, and JavaScript while programming in nothing but Python? Here are three frameworks that do the trick. Python has long had a ...

Developed by Mohsen Tamtaji (mtamtaji@connect.ust.hk) under the supervision of Professor Zhengtang Tom Luo at HKUST, Advanced Materials & Devices Laboratory The developed ML algorithm can be used for ...

For decades, Bragg gratings have been well-known and popular across the world. Optical filtering, interferometers, spectrometers, lasers, waveguiding, optical delay lines and sensors, and dispersion ...

The large computational memory requirement is an important issue in 3D large-scale wave modeling, especially for GPU calculation. Based on the observation that wave propagation velocity tends to ...

Abstract: A way of using the Finite Difference Time Domain method is described to simulate the Quantum Fourier Transform, which is an essential component of Shor's factoring algorithm. This simulation ...

Department of Mathematics & Statistics, Louisiana Tech University, Ruston, USA. Department of Physics, Louisiana Tech University, Ruston, USA. There are many numerical schemes developed for solving ...