Simulation and Parameter Estimation in Geophysics - A python package for simulation and gradient based parameter estimation in the context of geophysical applications.
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Updated
Dec 20, 2024 - Python
Simulation and Parameter Estimation in Geophysics - A python package for simulation and gradient based parameter estimation in the context of geophysical applications.
🦐 Electromagnetic Simulation + Automatic Differentiation
Fast electromagnetic solver (FDTD) at scale.
A collection of forward and inverse Mie solving routines for Python 3, based on Bohren and Huffman's Mie Theory derivations
collection of notebook-apps for concepts in applied geophysics
Efficient electromagnetic solver based on rigorous coupled-wave analysis for 3D and 2D multi-layered structures with in-plane periodicity, such as gratings, photonic-crystal slabs, metasurfaces, surface-emitting lasers, nano-antennas, and more.
petgem is a parallel and high-order code for active-source (e.g. CSEM) and passive-source (e.g. MT) geophysics electromagnetic modeling in 3D arbitrary marine/land problems under anisotropic conductivities.
A suite of photonic inverse design challenge problems for topology optimization benchmarking
Interactive geoscience (mostly) analytic functions.
An open-source python package for magnetotelluric data processing
Electromagnetic simulation (RCWA) & optimization package in Python
Finite-difference time-domain (FDTD) package capable of dynamic modulations in the refractive index and gain/loss.
🐍 CST Studio Suite API for Python
research code for running SimPEG simulations in settings with steel cased wells
An Open-Source Python Library for the development of algorithms for 2D Electromagnetic Inverse Scattering Problems.
A Dash application to visualize time-domain electromagnectic soundings (TEM) modeled with UBC-GIF em1dtmfwd
Calculation tool for loudspeaker design
An electromagnetic solver capable of simulating and optimizing 1D (thin-layer) structures via the semi-analytical transfer matrix method. For example, one can simulate and optimize broadband distributed Bragg reflectors, anti-reflection coatings, optical bandpass filters, and photovoltaic devices.
Method of Moments for 2D electromagnetic problems.
Python scripts to use and visualize the output of rtl_power.
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