In this paper, the authors compare the security bounds for different quantum communication protocols with the numerically evaluated losses in the transmission channel, due to the interaction between the atmosphere and the photon, which is the information carrier. The analysis is carried out using a free-source library, which can solve the radiative transfer equation for a parallel–plane atmosphere.
Systematic Numerical Study of the Propagation of Monochromatic Radiation through a Stationary Atmosphere in a Model of Plane–Parallel Layers / Antonietti, Nicolo'; Mondin, Marina; Catastini, G; Brida, G; Genovese, M.. - In: LASER PHYSICS. - ISSN 1054-660X. - STAMPA. - 17:12(2007), pp. 1389-1397. [10.1134/S1054660X07120092]
Systematic Numerical Study of the Propagation of Monochromatic Radiation through a Stationary Atmosphere in a Model of Plane–Parallel Layers
ANTONIETTI, NICOLO';MONDIN, Marina;
2007
Abstract
In this paper, the authors compare the security bounds for different quantum communication protocols with the numerically evaluated losses in the transmission channel, due to the interaction between the atmosphere and the photon, which is the information carrier. The analysis is carried out using a free-source library, which can solve the radiative transfer equation for a parallel–plane atmosphere.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2501007
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