2D Time independent Schroedinger equation solver
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Updated
Mar 22, 2021 - MATLAB
Quantum computing is a field of computing that uses quantum phenomena such as superposition and entanglement to perform operations on data. It is a rapidly growing field with potential applications in fields such as cryptography, chemistry, and optimization. Quantum computers can solve certain problems much faster than classical computers. Various programming languages such as Q#, Python and C++ can be used to write quantum algorithms to be run on quantum computers. The development of quantum computers is an active area of research and engineering.
2D Time independent Schroedinger equation solver
Schrodinger-Poisson solver in 1D demonstrator
Type an M x M matrix for your open quantum system Hamiltonian, and give a spectral density (analytic or numerical). FeynDyn gives the density matrix dynamics according to the Leggett-Caldeira bath or the Feynman-Vernon bath at any temperature. Can do up to 16 qubits (65536 levels) and infinitely many bath modes. Email nike@hpqc.org for the lates…
Simulation of the process of quantum Teleportation of a single quantum bit over a full-entangled channel.
Quantum Computing Functions for Octave/Matlab. QCF is a toolbox based on the syntax of Nielsen & Chuang's book 'Quantum Computing and Quantum Information'. It includes simulations of the Grover and Deutsch algorithms and a pdf tutorial. (Experimental move to github -- formally at sourceforge.net/projects/qcf/ )
3D Time independent Schroedinger equation solver
1D Time independent Schroedinger equation solver
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MATLAB codes for the 2018 arXiv paper discussing synthesis of logical Clifford operators for stabilizer codes.
1D Schroedinger solver in semiconductor with non-parabolicity
Plug-and-Play ADMM scheme based on an adaptive denoiser using the Schroedinger equation's solutions of quantum physics.
Quantum Gates and Circuit Simulator Toolbox in MATLAB
Poisson solver for semiconductor hetero-structures
1D Schroedinger solver in semiconductor with non-parabolicity in Zinc-Blende
2D time independent Schroedinger equation solver on inhomogeneous grid
Signal and image denoising using quantum adaptive transformation.
This code is for Matlab's users who need speed when computing large exponential matrices full and sparse.
Recovered files for interface state/photonic zero mode project in 2016
A MATLAB package for simulating the quantum dynamics of flux-qon systems.
Created by Richard Feynman and Yuri Manin