This paper introduces the use of photon-added squeezed states (PASSs) for quantum pulse position modulation (QPPM). It is shown that the use of PASSs in QPPM communication systems can reduce the symbol error probability (SEP) with respect to the use of different classes of quantum states with the same energy, including squeezed states and photon-added coherent states. The impact of thermal noise and phase diffusion on the SEP is also evaluated. The findings of this paper show the utility of PASSs in quantum communication systems.

Quantum Pulse Position Modulation with Photon-Added Squeezed States

Chiani M.;
2020

Abstract

This paper introduces the use of photon-added squeezed states (PASSs) for quantum pulse position modulation (QPPM). It is shown that the use of PASSs in QPPM communication systems can reduce the symbol error probability (SEP) with respect to the use of different classes of quantum states with the same energy, including squeezed states and photon-added coherent states. The impact of thermal noise and phase diffusion on the SEP is also evaluated. The findings of this paper show the utility of PASSs in quantum communication systems.
2020
2020 IEEE Globecom Workshops, GC Wkshps 2020 - Proceedings
1
5
Guerrini S.; Chiani M.; Win M.Z.; Conti A.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/863404
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