The discharge parameters were simulated using a hydrodynamic plasma model based on papers by P. Chabert and D. Goebel.
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Updated
Jul 3, 2021 - Python
The discharge parameters were simulated using a hydrodynamic plasma model based on papers by P. Chabert and D. Goebel.
Scripts used for an undergraduate mathematics research project supervised by Matthew Hole I took at the Australian National University, focused on toroidal plasma stability.
Simulates plasma reconnection in an electric current sheet given certain initial conditions and precising boundary conditions.
The project focuses on implementing object tracking algorithms. The focus will be on developing a numerical tool for tracking any arbitrary shape-changing features/structures as they wander in the sky or inside a laboratory device.
This project integrates Python, Arduino, and NI DAQ technologies to control a thrust stand, record deflection data, and perform calibration. It employs PySerial and NI-DAQmx/nidaqmx for communication and data acquisition, with Tkinter.
Own workflow for Swiss Plasma Center's VENUS-MHD code
Python code used for analysis of data taken during a third year undergraduate Physics laboratory experiment, A1 Materials Processing with Plasmas, at the University of York.
VMEC to gyrokinetics interface for tokamaks
Fusion reactor design project : parameter search, verification of the operation limit, and application to the reinforcement learning
Density Manipulator & Bootstrap Calculator
MHD computational code
Project title: "A deep learning approach for data recovery in the Soft X-Ray fusion plasma diagnostics".
Rice Adaptive Particle Tracer
The code is designed to simulate the radiation intensity of impurities emitted from the plasma through Lyman-alpha spectral lines of B, C, N and O hydrogen-like ions in the context of the C/O monitor system for Wendelstein 7-X.
Mirror of the atoMEC repository. Please do not post issues or pull requests here. Use https://github.com/atomec-project/atoMEC instead.
Python implementation of anisotropic quasisymmetric stellarator construction
PIC code simulation for two-stream instability in Plasmas
solves the trajectory of a charged particle in space-dependant electromagnetic fields
The Thomson scattering diagnostic offers a method by which to infer plasma parameters such as n_e, T_e. This codebase uses the form factor equations to estimate those plasma parameters by fitting to observed Thomson scattering spectra.
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