Our research has been published in PRR and was selected for EDITORS' SUGGESTION. Please refer to the following information for further detail.
TITLE
Optimal probe states for single-mode quantum target detection in arbitrary object reflectivity
ABSTRACT
Quantum target detection (QTD) utilizes nonclassical resources to enable radar-like detection for identifying reflecting objects in lossy and noisy environments, surpassing the detection performance achieved by classical methods. To fully exploit the quantum advantage in QTD, determining the optimal probe states (OPSs) across various detection parameters and gaining a deeper understanding of their characteristics are crucial. In this study, we employ optimization algorithms to identify the single-mode continuous-variable OPSs for entire range of target reflectivity. Our findings suggest that OPSs are non-Gaussian states in most reflectivity scenarios, with exceptions under specific conditions. Furthermore, we provide a comprehensive physical interpretation of the observed phenomena. This study offers a tool for identifying OPSs along with a clear physical interpretation. It also contributes to further advancements towards optimal multi-mode QTD, which holds the potential for broad applications in quantum sensing and metrology.
Chen, Wei-Ming, and Pin-Ju Tsai (2024). Optimal probe states for single-mode quantum target detection in arbitrary object reflectivity. Phys. Rev. Research 6, 023084. EDITORS' SUGGESTION DOI: 10.1103/PhysRevResearch.6.023084
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