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Study on Quantum Radar Detection Probability Based on Flying-Wing Stealth Aircraft [PDF]
Sensors, 2022 The development of quantum radar technology presents a challenge to stealth targets, so it is necessary to study the quantum detection probability. In this study, an analytical expression of the quantum radar cross section (QRCS) for complex targets is ...
Shaoze Lu +4 more
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An array of two JPAs in a quantum two-mode squeezed radar [PDF]
Scientific ReportsQuantum two-mode squeezed (QTMS) radar, inspired by quantum illumination but without joint measurements in the receiver, has shown promise in target detection.
Milad Norouzi +2 more
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Bistatic Radar with Quantum-Generated Noise Phase Manipulation and Non-Directional Antennas [PDF]
SensorsThe development of bistatic noise radars is a promising contemporary direction in the field of radar technology. Two novel approaches are proposed in this study as further development of existing methods for their design.
Nikolay Gueorguiev +4 more
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Hybrid LiDAR–radar at 9 μm wavelength with unipolar quantum optoelectronic devices [PDF]
NanophotonicsUnipolar quantum optoelectronics is emerging as a promising semiconductor platform for developing mid-infrared applications, particularly spectroscopy and free-space communications.
Del Balzo Livia +9 more
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Range Limitations in Microwave Quantum Radar
Remote SensingThis work, written for engineers or managers with no special knowledge of quantum mechanics, nor deep experience in radar, aims to help the scientific, industrial, and governmental community to better understand the basic limitations of proposed ...
Gabriele Pavan, Gaspare Galati
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Physical Review Letters, 2020 We propose a quantum metrology protocol for the localization of a non-cooperative point-like target in three-dimensional space, by illuminating it with electromagnetic waves. It employs all the spatial degrees of freedom of N entangled photons to achieve an uncertainty in localization that is sqrt(N) times smaller for each spatial direction than what ...
Lorenzo Maccone, Changliang Ren
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Evaluating the detection range of microwave quantum illumination radar
IET Radar, Sonar & Navigation, 2023 Based on quantum illumination (QI) protocol, microwave quantum radar has been developed, which has attracted great interest from radar researchers.
Rongyu Wei +5 more
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Sensors, 2022 A quantum illumination radar uses quantum entanglement to enhance photodetection sensitivity. The entanglement is quickly destroyed by the decoherence in an environment, although the sensitivity enhancement could survive thanks to quantum correlations ...
Sylvain Borderieux +2 more
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Entanglement Sustainability in Quantum Radar [PDF]
IEEE Journal of Selected Topics in Quantum Electronics, 2020 Quantum radar is generally defined as a detection sensor that utilizes the microwave photons like a classical radar. At the same time, it employs quantum phenomena to improve detection, identification, and resolution capabilities. However, the entanglement is so fragile, unstable, and difficult to create and to preserve for a long time.
Ahmad Salmanogli +2 more
openaire +3 more sources
Fourier Expression of the Quantum Radar Cross Section of a Dihedral Corner Reflector
IEEE Photonics Journal, 2021 In this paper, a Fourier expression of the quantum radar cross section (QRCS) of a dihedral corner reflector is proposed, which avoids the problems caused by atomic sampling on the target-object surface and is a powerful tool for analyzing the scattering
Zhifu Tian, Di Wu, Tao Hu
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