QuantumOptics.jl

QuantumOptics.jl: A Julia framework for simulating open quantum systems. We present an open source computational framework geared towards the efficient numerical investigation of open quantum systems written in the Julia programming language. Built exclusively in Julia and based on standard quantum optics notation, the toolbox offers speed comparable to low-level statically typed languages, without compromising on the accessibility and code readability found in dynamic languages. After introducing the framework, we highlight its features and showcase implementations of generic quantum models. Finally, we compare its usability and performance to two well-established and widely used numerical quantum libraries.

Keywords for this software

arXiv_publication
Quantum Physics
Numerics
Quantum Optics
Strongly Correlated Electrons
arXiv
Computational Physics
open quantum systems
arXiv_quant-ph
Julia
Quantum Mechanics
Python
Julia framework
arXiv_physics.comp-ph
Julia language
arXiv_cond-mat.quant-gas
QuantumCumulants.jl
mean-field equations
Quantum Gases

References in zbMATH (referenced in 3 articles , 1 standard article )

Showing results 1 to 3 of 3.

Sorted by year (citations)

David Plankensteiner, Christoph Hotter, Helmut Ritsch: QuantumCumulants.jl: A Julia framework for generalized mean-field equations in open quantum systems (2021) arXiv
Phillip Weinberg, Marin Bukov: QuSpin: a Python Package for Dynamics and Exact Diagonalisation of Quantum Many Body Systems. Part II: bosons, fermions and higher spins (2018) arXiv
Sebastian Krämer, David Plankensteiner, Laurin Ostermann, Helmut Ritsch: QuantumOptics.jl: A Julia framework for simulating open quantum systems (2017) arXiv