de Forges de Parny, L.; Paccard, L.; Bertrand, M.; Lazzarini, L.; Leloup, V.; Aymeric, R.; Blaise, A.; Molin, S.; Besancenot, P.; Laborde, C.;
et al. Towards a Global Scale Quantum Information Network: A Study Applied to Satellite-Enabled Distributed Quantum Computing. Entropy 2025, 27, 1166.
https://doi.org/10.3390/e27111166
AMA Style
de Forges de Parny L, Paccard L, Bertrand M, Lazzarini L, Leloup V, Aymeric R, Blaise A, Molin S, Besancenot P, Laborde C,
et al. Towards a Global Scale Quantum Information Network: A Study Applied to Satellite-Enabled Distributed Quantum Computing. Entropy. 2025; 27(11):1166.
https://doi.org/10.3390/e27111166
Chicago/Turabian Style
de Forges de Parny, Laurent, Luca Paccard, Mathieu Bertrand, Luca Lazzarini, Valentin Leloup, Raphael Aymeric, Agathe Blaise, Stéphanie Molin, Pierre Besancenot, Cyrille Laborde,
and et al. 2025. "Towards a Global Scale Quantum Information Network: A Study Applied to Satellite-Enabled Distributed Quantum Computing" Entropy 27, no. 11: 1166.
https://doi.org/10.3390/e27111166
APA Style
de Forges de Parny, L., Paccard, L., Bertrand, M., Lazzarini, L., Leloup, V., Aymeric, R., Blaise, A., Molin, S., Besancenot, P., Laborde, C., & van den Bossche, M.
(2025). Towards a Global Scale Quantum Information Network: A Study Applied to Satellite-Enabled Distributed Quantum Computing. Entropy, 27(11), 1166.
https://doi.org/10.3390/e27111166
