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Quantum Discrimination of Noisy Photon-Added Coherent States

Stefano Guerrini, Moe Z. Win, Marco Chiani, Andrea Conti

2020IEEE Journal on Selected Areas in Information Theory30 citationsDOIOpen Access PDF

Abstract

Quantum state discrimination (QSD) is a key enabler in quantum sensing and networking, for which we envision the utility of non-coherent quantum states such as photon-added coherent states (PACSs). This paper addresses the problem of discriminating between two noisy PACSs. First, we provide representation of PACSs affected by thermal noise during state preparation in terms of Fock basis and quasi-probability distributions. Then, we demonstrate that the use of PACSs instead of coherent states can significantly reduce the error probability in QSD. Finally, we quantify the effects of phase diffusion and photon loss on QSD performance. The findings of this paper reveal the utility of PACSs in several applications involving QSD.

Topics & Concepts

Coherent statesFock spacePhotonStatistical physicsQuantum stateQuantumQuantum mechanicsNoise (video)PhysicsQuantum opticsComputer scienceArtificial intelligenceImage (mathematics)Quantum Information and CryptographyQuantum optics and atomic interactionsQuantum Mechanics and Applications
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