Optimal probes for continuous-variable quantum illumination

Mark Bradshaw; Lorcán O. Conlon; Spyros Tserkis; Mile Gu; Ping Koy Lam; Syed M. Assad

doi:10.1103/PhysRevA.103.062413

Optimal probes for continuous-variable quantum illumination

Mark Bradshaw, Lorcán O. Conlon, Spyros Tserkis, Mile Gu, Ping Koy Lam, Syed M. Assad

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29 Citations (SciVal)

Abstract

Quantum illumination is the task of determining the presence of an object in a noisy environment. We determine the optimal continuous-variable states for quantum illumination in the limit of zero object reflectivity. We prove that the optimal single-mode state is a coherent state, while the optimal two-mode state is the two-mode squeezed-vacuum state. We find that these probes are not optimal at nonzero reflectivity, but remain near optimal. This demonstrates the viability of the continuous-variable platform for an experimentally accessible, near optimal quantum illumination implementation.

Original language	English
Article number	062413
Journal	Physical Review A
Volume	103
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevA.103.062413
Publication status	Published - Jun 2021

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abstract = "Quantum illumination is the task of determining the presence of an object in a noisy environment. We determine the optimal continuous-variable states for quantum illumination in the limit of zero object reflectivity. We prove that the optimal single-mode state is a coherent state, while the optimal two-mode state is the two-mode squeezed-vacuum state. We find that these probes are not optimal at nonzero reflectivity, but remain near optimal. This demonstrates the viability of the continuous-variable platform for an experimentally accessible, near optimal quantum illumination implementation.",

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AB - Quantum illumination is the task of determining the presence of an object in a noisy environment. We determine the optimal continuous-variable states for quantum illumination in the limit of zero object reflectivity. We prove that the optimal single-mode state is a coherent state, while the optimal two-mode state is the two-mode squeezed-vacuum state. We find that these probes are not optimal at nonzero reflectivity, but remain near optimal. This demonstrates the viability of the continuous-variable platform for an experimentally accessible, near optimal quantum illumination implementation.

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Optimal probes for continuous-variable quantum illumination

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