A novel Z_{4n}-detection scheme using superposition of four coherent states in Mach-Zehnder quantum LiDAR yields enhanced resolution and broader phase sensitivity compared to conventional Z-detection.
Laser Beam Atmospheric Propagation Modelling for Aerospace LIDAR Applications
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TurPy delivers a differentiable wave-optics turbulence simulator that reproduces theoretical beam broadening and scintillation to 98% accuracy and enables end-to-end optimization of diffractive neural networks.
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Introducing a novel $Z_{4n}$-detection scheme to enhance the performance of quantum LiDAR systems
A novel Z_{4n}-detection scheme using superposition of four coherent states in Mach-Zehnder quantum LiDAR yields enhanced resolution and broader phase sensitivity compared to conventional Z-detection.
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TurPy: a physics-based and differentiable optical turbulence simulator for algorithmic development and system optimization
TurPy delivers a differentiable wave-optics turbulence simulator that reproduces theoretical beam broadening and scintillation to 98% accuracy and enables end-to-end optimization of diffractive neural networks.