An open source Python package for plasma research and education
Main code for Parcels (Probably A Really Computationally Efficient Lagrangian Simulator)
Scripts to create vector fields and flow maps that can be used in Unreal Engine 4 or Unity 3D for particle VFX.
Fast deterministic all-Python Lennard-Jones particle simulator that utilizes Numba for GPU-accelerated computation.
The open-source particle-in-cell post-processor.
An addon for Blender enabling just-in-time loading and animation of mesh and particle/ point-cloud sequences.
For shallow-water Lagrangian particle routing.
TF2 particle modifications via some wizardry.
GPU-accelerated N-Body particle simulator with visualizer.
A Python module for fast computation of 2D and 3D radial distribution functions (RDFs).
A Particle in Cell code using Python, with plenty of room for improvement
Resampling tools for openPMD PIC data
Tools for analyzing and viewing particle data in the openPMD standard, extension beamphysics.
Post processing routines for analysing PTV data.
A lightweight, flexible particle system written in Python.
Simulation of Systems of interacting mean-field Particles with High Efficiency
Some python codes to generate various aggregate particles (e.g. ballistic particle cluster, and cluster-cluster).
Python library unifying Positron Emission Particle Tracking (PEPT) research, including tracking, simulation, data analysis and visualisation tools.
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