@ARTICLE{
author={Zamora Antonio David Bastida,Budinski Ljubomir,Lahtinen Valtteri,Sagaut Pierre},
year={2026},
title={Quantum lattice Boltzmann method for several time steps: A local Carleman linearization algorithm},
journal={PHYSICAL REVIEW E},
volume={113},
number={3},
pages={-},
document_type={Article},
} 

@ARTICLE{
author={Fonio Niccolo,Sagaut Pierre,Budinski Ljubomir,Lahtinen Valtteri},
year={2025},
title={Adaptive lattice-gas algorithm: Classical and quantum implementations},
journal={PHYSICAL REVIEW E},
volume={112},
number={3},
pages={-},
document_type={Article},
} 

@ARTICLE{
author={Zamora Antonio David Bastida,Budinski Ljubomir,Sagaut Pierre,Lahtinen Valtteri},
year={2025},
title={Lattice gas automata with floating-point numbers: A connection between molecular dynamics and lattice Boltzmann method for quantum computers},
journal={PHYSICAL REVIEW E},
volume={112},
number={1},
pages={-},
document_type={Article},
} 

@ARTICLE{
author={Shinde Tejas,Budinski Ljubomir,Niemimaeki Ossi,Lahtinen Valtteri,Liebelt Helena,Li Rui},
year={2025},
title={Utilizing classical programming principles in the Intel Quantum SDK: implementation of quantum lattice Boltzmann method},
journal={ACM TRANSACTIONS ON QUANTUM COMPUTING},
volume={6},
number={1},
pages={-},
document_type={Article},
} 

@ARTICLE{
author={Zamora Antonio David Bastida,Budinski Ljubomir,Niemimaki Ossi,Lahtinen Valtteri},
year={2025},
title={Efficient quantum lattice gas automata},
journal={COMPUTERS & FLUIDS},
volume={286},
number={},
pages={-},
document_type={Article},
}