My PhD thesis, available on the arXiv at http://arxiv.org/abs/arXiv:1006.5321

Homework 6 of Numerical Physics, Fall 2022, PKU

Solves the SO(5) Richardson-Gaudin model.

Homework 2 of Numerical Physics, Fall 2022, PKU

Homework 5 of Numerical Physics, Fall 2022, PKU

Homework 3 of Numerical Physics, Fall 2022, PKU

Repository containing the result of my first C++ semester project, part of the Programmation II course in the first year of the Physics BSc at EPFL. The goal was to implement a real-life physics implementation of sand grains in different environments, with a graphical simulation component.

Homework 1 of Numerical Physics, Fall 2022, PKU

This repository stores all of codes that I have done during my undergrad and postgrad course work

Light simulation using the wave equation

Homework 4 of Numerical Physics, Fall 2022, PKU

Narrow escape problem in two-shell spherical domains. Codes for numerical simulations and numerical solution of PDEs.

A unified module for numerical calculations in physics using python.

Codes used in "Flocking and reorientation transition in the 4-state active Potts model" by S. Chatterjee, M. Mangeat, R. Paul and H. Rieger, published in EPL 130, 66001 (2020); and "Flocking with a q-fold discrete symmetry: Band-to-lane transition in the active Potts model" by M. Mangeat, S. Chatterjee, R. Paul and H. Rieger, published in Phys. …

Restricted active Potts model. Codes for numerical solution of PDEs.

This repository is for the numerical simulations in physics.

Implementation of local algorithms within pyscf

Sedimention of active Brownian particles in a box. Codes for numerical simulations and numerical solution of PDEs.

Raytracing black holes in 100 lines of Python