Solving Schrodinger Equation Numerically
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Updated
Aug 27, 2022 - Jupyter Notebook
Solving Schrodinger Equation Numerically
Artifitial Neural Networks for Solving Ordinary and Partial Differential Equations, in this case, Schrodinger's Equation for One Particle in a 1-Dimentional Box
This is a project done as a partial requirement of EN 3110 Electronic Devices to provide Numerical Solution for 1-D Schrodinger's Wave Equation using python language. Further it has been extended to 2-D scenarios as well.
Pilot, Hasty, but Amazing Schrodinger Equation Solution
A web-based solver for the Schrödinger Equation
Implementation of RK4 algorithm to solve 2D Schrödinger equation
The aim is to solve the Schrödinger equation for a particle in a one-dimensional potential well using the finite difference method, a computational physics technique.
This repository is based on Schrodinger's time independent wave equation and it's plotting.
A Jupyter notebook designed to solve the time-independent Schrödinger equation for vibrational energies and wavefunctions of (molecular) potential energy curves (PECs).
A tool to calculate the lowest energy solution and plot the wave function for a multi-level constant potential using 1D Schro. TMM
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