Python package for Mie scattering computation and analysis.

Free and open-source code package designed to perform PyMEEP FDTD simulations applied to Plasmonics (UBA+CONICET) [Buenos Aires, Argentina]

Supplemental Material for "BUQEYE Guide to Projection-Based Emulators in Nuclear Physics"

A repository used to compare the KVP and NVP emulators for two-body scattering in momentum space. This code was used to generate results for the paper ''Wave-function-based emulation for nucleon-nucleon scattering in momentum space'' by Garcia, Drischler, Furnstahl, Melendez, and Zhang.

Reference material for "Physics-Informed Gaussian Process Inference of Liquid Structure from Scattering Data" by Sullivan, Shanks, Cervenka and Hoepfner (2025)

A repository used to compare the KVP and NVP emulators for two-body scattering in momentum space. This code was used to generate results for the paper ''Wave-function-based emulation for nucleon-nucleon scattering in momentum space'' by Garcia, Drischler, Furnstahl, Melendez, and Zhang.

Student project to edit a text in spanish on Mie Theory with a computational program to calculate optical properties of spherical nanoparticles.

Dynamic Light Scattering modeling and analysis package using cumulants and biexponential fitting aglorithms.

Time-dependent potential model for ion-solid interactions

C++11 program for simulating scattering in a system of particles with different shapes, parallelized with OpenMP or CUDA.

Measuring magneto-impedance in ferromagnetic wires subjected to external stimuli such as magnetic field, tensile stress, and temperature

A Python package to calculate 2-to-2 scattering cross-section involving axions. It includes Primakoff, Inverse Primakoff, Compton and Inverse Compton scattering as of now. Working on to include other channels too. It gives the total cross section and kinematic spectra for different form factors.

Measuring magneto-impedance in ferromagnetic wires subjected to external stimuli such as magnetic field, tensile stress, and temperature