Forward code for the P-SV wave equation on a staggered grid, with full waveform inversion interfaces. Finite difference approach according to stress-velocity formulation.

Ultrasonic NDT Simulator with engine core based on the Elastodynamic Finite Integration Technique (EFIT)

Fast implementation of the multi-dimensional fractional Fourier transform in Python

Electrostatic and Electromagnetic wave propagation simulations with FEM: EM field, TE & TM modes of a circular waveguide, scattering of a plane wave from a perfect electric conductor cylinder using PML.

A Scalable Deep Learning Framework for Wave-Based Inverse Problems

Extreme-scale Discontinuous Galerkin Environment (EDGE)

Setup, run, post process, and visualize numerical simulations. Primarily SW4

Wave propagation framework for Python 3. Documentation and examples: https://wave-propagation.readthedocs.io/

Seismo-VLAB: An Open-Source Finite Element Software for Meso-Scale Simulations

A package to calculate ensemble averaged waves in heterogeneous materials. The focus is on wave propagation, scattering, and reflection, from particulate and porous materials.

Release version of ncpaprop, a command-line package for modeling the propagation of low-frequency acoustic waves in the atmosphere.

Graduate Level Course of Technical University of Munich

ViscoWave is a tool for Dynamic Backcalculation of Falling Weight Deflectometer (FWD) Time History Data

This repository has properties for different groups of material. The main idea is to provide accesible properties for comparison.

Eliassen-Palm flux diagnostics script in the form employed by Edmon, 
H.
 J., 
B. 
J. 
Hoskins, 
and 
M. 
E. 
McIntyre, 
1980: 
Eliassen‐Palm 
cross
sections 
for
 the 
troposphere. 
J.
Atmos. 
Sci., 
37:2600–2616


Paper implementation of a 1-D quantum wave equation solver for arbitrary elastic media, initial conditions, and boundary conditions on actual quantum hardware

Open-source Python package for a wide range of tasks in modeling cardiac electrophysiology using finite-difference methods.

A Mathematica package to calculate exact multiple scattering, in time and frequency, according to the 2D wave equation.

VBM is an efficient exact wave propagation technique that has an O(n) compute and space complexity. Inherently produces globally optimal paths to all grid points. Solves several shortcomings of state-of-the-art FMM.

No description provided.

Acoustic and elastic seismic wave propagation and gradients (using the adjoint method).

Computational lab to provide the students with interactive simulations that help them to comprehend the concepts of seismology.

A collection of MATLAB simulations for acoustic wave propagation in geophysical imaging. Covers phenomena like Mie scattering, beamforming with acoustic lenses, layered refraction, and wave focusing. These models illustrate key seismic effects such as attenuation, reflection, and velocity-based wave behavior.

A simple Python code to solve the Lamb's problem.

Tsunami Squares - Open source tsunami propagation and inundation model adapted from Prof. Steven Ward's research. Visit Prof. John Rundle's homepage at UC Davis for support and updates.

Modified transfer matrix method (MTMM) for extracting the optical constants from terahertz time-domain spectroscopy data.

This robust tool automates the simulation of the recording process, facilitating mass production of holograms and enhancing the development and training of deep learning models in DHM autofocusing applications.

Propagación de ondas en suelos multicapa

No description provided.

2D finite difference acoustic wave propagation