Pinned Repositories
1D-Schrodinger
Quantum bound states in 1D
DTVM-frbr
Applying Dynamic Threshold Variability Method (DTVM) to predict ice breakup/freeze-up
GHModel
A PyQT5 GUI application demonstrating the physics of the greenhouse effect
LiquidCrystals
Simulating liquid crystals in confinement
QSTwithRNNs
Quantum State Tomography using U(1)-symmetric Recurrent Neural Networks
OptionsPricing
Learning theory of options pricing
Atomic-Nuclei
Exploring connections between random matrices and nuclear physics
Courses
Notes and assignment solutions for courses I've taken
Experiments
Computational Experiments
gansForPolymer
SyuW's Repositories
SyuW/LiquidCrystals
Simulating liquid crystals in confinement
SyuW/Experiments
Computational Experiments
SyuW/OptionsPricing
Learning theory of options pricing
SyuW/googletest
GoogleTest - Google Testing and Mocking Framework
SyuW/Helium-on-Graphene
Scripts for analyzing QMC data from Helium-4 on graphene project
SyuW/Atomic-Nuclei
Exploring connections between random matrices and nuclear physics
SyuW/1D-Schrodinger
Quantum bound states in 1D
SyuW/QSTwithRNNs
Quantum State Tomography using U(1)-symmetric Recurrent Neural Networks
SyuW/Courses
Notes and assignment solutions for courses I've taken
SyuW/GHModel
A PyQT5 GUI application demonstrating the physics of the greenhouse effect
SyuW/SyuW.github.io
Personal Website
SyuW/manim
Animation engine for explanatory math videos
SyuW/DTVM-frbr
Applying Dynamic Threshold Variability Method (DTVM) to predict ice breakup/freeze-up
SyuW/gansForPolymer
SyuW/Numerov
A python script that solves the one dimensional time-independent Schrodinger equation for bound states. The script uses a Numerov method to solve the differential equation and displays the desired energy levels and a figure with an approximate wave function for each of these energy levels.
SyuW/phys_363_classical_mech
Source code for classical mechanics assignment problems
SyuW/phys_358_thermal
code for phys 358 thermal physics
SyuW/python-is-cool
Cool Python features for machine learning that I used to be too afraid to use. Will be updated as I have more time / learn more.