A spatially matched wavefront shaping method enables direct far-field measurement of the minimum localization length in disordered 2D photonic lattices via the critical coupling effect, with length decreasing as air-hole diameter increases at fixed periodicity.
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A semi-automatic procedure for aligning defocused SLMs to enable spatial multiplexing and pixel-level conjugation in diffractive neural networks for faster parallel processing.
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Characterize localization length of disordered lattices via critical coupling effect
A spatially matched wavefront shaping method enables direct far-field measurement of the minimum localization length in disordered 2D photonic lattices via the critical coupling effect, with length decreasing as air-hole diameter increases at fixed periodicity.
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Tutorial: A practical guide to the alignment of defocused spatial light modulators for fast diffractive neural networks
A semi-automatic procedure for aligning defocused SLMs to enable spatial multiplexing and pixel-level conjugation in diffractive neural networks for faster parallel processing.