Simulation/computation models created for optical physics research
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Updated
May 22, 2018 - MATLAB
Simulation/computation models created for optical physics research
Simulation of the process of quantum Teleportation of a single quantum bit over a full-entangled channel.
A MATLAB package for simulating the quantum dynamics of flux-qon systems.
This is a model I build during my undergraduate research at CPN at Lehigh University. The model is used to simulate for GaN/InGaN QW of bandedge energy, energy states, wave functions, etc. with Schrodinger - Poisson consistent equations.
Error mitigation matrices for each chip and every number of qubits, updated daily, so that you don't need to calculate them yourself.
2D Time independent Schroedinger equation solver
3D Time independent Schroedinger equation solver
1D Time independent Schroedinger equation solver
Schrodinger-Poisson solver in 1D demonstrator
2D time independent Schroedinger equation solver on inhomogeneous grid
Schrodinger-Poisson solver with Dirichlet boundary condition
1D Schrodinger solver with effective mass on NON-REGULAR GRID
1D Schroedinger solver in semiconductor with effective mass
Poisson solver for semiconductor hetero-structures
1D Schroedinger solver in semiconductor with non-parabolicity in Zinc-Blende
Matlab code implementing the Crank-Nicolson finite-difference scheme for the solution of the 3D Schrodinger equation with a 3D trasparent boundary condition.
Use Coulomb matrix and atomic composition as molecular descriptors to predict the atomization energy of molecules in a machine learning setting.
Computes the density of states in Bulk and quantum well
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