Library for the numerical simulation of open quantum systems.
MIT License
OpenQuantumSystems.jl is a numerical framework written in Julia that makes it easy to simulate various kinds of open quantum systems with main focus on quantum biology in finite basis. It is inspired by the quantarhei and QuantumOptics.jl.
You can obtain OpenQuantumSystems using Julia's Pkg REPL-mode (hitting ]
as the first character of the command prompt):
(v1.6) pkg> add OpenQuantumSystems
or with using Pkg; Pkg.add("OpenQuantumSystems")
.
The package is still under development. If you have any questions or need help, see gitter channel and ask away. Also, contributions of any kind are always welcome! If you have any ideas for bug fixes, new features, optimisation or unit tests suggest it straight away or create a pull request.
This package is a backbone for calculations for my master thesis supervised by doc. Tomáš Mančal.
What is OpenQuantumSystems.jl capable of right now?
What can we expect in the near future?
What would be nice to have?
Master
Develop
You can use make.bat
or make
file for testing, but it will install all the dependencies before executing tests. I advise using jupyter notebook src/local_test.ipynb
with julia kernel for tests. Package Revise.jl
will load all the functions and by using include("src/test_file.jl")
you can quickly debug and add new tests.
Please use formatting in make.bat
or make
file. I suggest using Revise.jl
with jupyter notebook in src/local.ipynb
for adding new features. It will spare you of the painful precompilation time.
quantarhei - Concepts of aggregate construction, Hamiltonian of aggregate construction and trace over bath degrees of freedom were implemented in quantarhei
in python
.
QuantumOpticsBase.jl - Provides building elements for this package, such as the implementation of operators and superoperators (and many more).