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Quantum Advantage of Binary Discrete Modulations for Space Channels

M. A. Vázquez‐Castro, Bunyod Samandarov

2023IEEE Wireless Communications Letters17 citationsDOI

Abstract

We assume information is discrete-modulated over coherent states of the single-mode electromagnetic field and transmitted over space quantum channels. In this letter, we provide a comparison of quantum detection with classical detection for communication using on-off keying (OOK) and binary phase shift keying (BPSK) for illustrative system parameters for LEO, MEO and GEO satellites. To do so, we assume an attenuation-only (pure-loss) channel and compute the Shannon capacities for the following detection methods: classical (shot-noise limited) single-photon and coherent detectors as well as optimal quantum hypothesis-testing (Helstrom) detection. As in classical system engineering design, we also obtain theoretical references for comparison, namely, Shannon capacities and Holevo bounds for the ideal Gaussian optical channel. Our results show the ranges of transmitted power and orbital heights for which either classical or quantum detection is optimal, thus providing useful insights into design guidelines and operations of future space communication systems. We also obtain the remarkable result that the BPSK Holevo bound achieves the ultimate quantum capacity of the considered channel.

Topics & Concepts

Quantum channelPhase-shift keyingKeyingClassical capacityQuantum capacityQuantum information scienceQuantumQuantum informationComputer scienceChannel (broadcasting)Topology (electrical circuits)Amplitude damping channelPhysicsElectronic engineeringQuantum mechanicsMathematicsQuantum networkTelecommunicationsBit error rateQuantum entanglementEngineeringCombinatoricsQuantum Information and CryptographyQuantum Mechanics and ApplicationsOrbital Angular Momentum in Optics