simple python analytic kerr raytracing

Proyecto de reestructuración de los apuntes de Juan Crisóstomo para Mecánica Clásica 1 y 2 (UdeC). Actualmente en pausa.

Apunte en desarrollo del curso Electrodinámica 2 (UdeC, semestre 1 de 2026).

A code for solving the initial data constraints in General Relativity

A draft book on General Relativity

Mie Simulator GUI

Jipole is a Julia-based imaging tool built on the general relativistic ray-tracing framework of ipole. Using ForwardDiff.jl, it computes intensity derivatives with respect to input parameters, enab…

A (hopefully) more readable version of Griffiths E&M

Notes for Group Theory for Phycisist in a Nutshell by A Zee.

Classical Electrodynamics 3rd Edition By J.D Jackson -- Solutions, Notes and Visualization programs

An Educational Hartree-Fock Code in Python: Transparent Implementation of Gaussian-Type Integrals, SCF Procedures, and Geometry Optimization

Code repository for the GR-ORBIT-TOOLKIT: A Python-Based Software for Simulating and Visualizing Relativistic Orbits, developed at Yachay Tech University.

A Python toolkit to perform common tensor operations in Continuum Mechanics

ManimCE tutorial codes

finite element analysis for continuum mechanics of solid bodies

😎 curated list of open source photonics projects

An electromagnetic field computation program

Simulator for Large LEO Satellite Communication Networks

A package to help you share your data by making GUIs the easiest thing in the world!

GW polarization parameterizations and corresponding Jacobians.

Proyecto de apunte de Física Matemática II

Cosmology and Gravitation group UAF-UAZ

Introductory Course on Numerical Methods

Lecture material used in my 8 hour long PhD course on "Numerical Methods for Partial Differential Equations"

This repository contains the Jupyter notebooks I use for my bachelor lectures on Python at the University of Milano-Bicocca (Milan, Italy).

Numerical simulations and assignments for the General Relativity course

Simulate Swarzschild black holes based on the methods presented in Luminet (1979)

3D electromagnetic time-domain solver, specialized in wake potential and beam-coupling impedance computation for particle accelerators