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Autori principali: Darji, Ishan, Kumar, Santosh, Huang, Yu-Ping
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2411.00953
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author Darji, Ishan
Kumar, Santosh
Huang, Yu-Ping
author_facet Darji, Ishan
Kumar, Santosh
Huang, Yu-Ping
contents Spatial-mode projective measurements could achieve super-resolution in remote sensing and imaging, yet their performance is usually sensitive to the parameters of the target scenes. We propose and demonstrate a robust classifier of close-by light sources by using optimized mode projection via nonlinear optics. Contrary to linear-optics based methods using the first few Hermite-Gaussian modes for the projection, here the projection modes are optimally tailored by shaping the pump wave to drive the nonlinear optical process. This minimizes modulation losses and allows high flexibility in designing those modes for robust and efficient measurements. We test this classifier on discriminating one light source and two sources separated well within the Rayleigh limit without prior knowledge of the exact centroid or brightness. Our results show a classification fidelity of over 80% even when the centroid is misaligned by half the source separation, or when one source is four times stronger than the other.
format Preprint
id arxiv_https___arxiv_org_abs_2411_00953
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A Robust Super-Resolution Classifier by Nonlinear Optics
Darji, Ishan
Kumar, Santosh
Huang, Yu-Ping
Optics
Spatial-mode projective measurements could achieve super-resolution in remote sensing and imaging, yet their performance is usually sensitive to the parameters of the target scenes. We propose and demonstrate a robust classifier of close-by light sources by using optimized mode projection via nonlinear optics. Contrary to linear-optics based methods using the first few Hermite-Gaussian modes for the projection, here the projection modes are optimally tailored by shaping the pump wave to drive the nonlinear optical process. This minimizes modulation losses and allows high flexibility in designing those modes for robust and efficient measurements. We test this classifier on discriminating one light source and two sources separated well within the Rayleigh limit without prior knowledge of the exact centroid or brightness. Our results show a classification fidelity of over 80% even when the centroid is misaligned by half the source separation, or when one source is four times stronger than the other.
title A Robust Super-Resolution Classifier by Nonlinear Optics
topic Optics
url https://arxiv.org/abs/2411.00953