利用可编程空间模式分拣机实现无先验知识的自适应超分辨率成像

arXiv - PHYS - Optics Pub Date : 2024-09-06 DOI:arxiv-2409.04323

Itay Ozer, Michael. R. Grace, Pierre-Alexandre Blanche, Saikat Guha

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引用次数: 0

摘要

我们考虑了一个成像系统，它的任务是在事先不知道中心点或星座的情况下，用固定的收集光子预算来估计两个非相干发射子雷利分离点源之间的角距离。理论证明，将光学记录时间分成两个阶段--焦平面直接成像以获得中心点的估计值，并利用该估计值将空间模式分选器置于中心位置，然后对分选模式进行光子探测--可以将估计分离度的均方误差降低 10 到 100 倍。在本文中，我们通过概念验证证明了这一点，在一个模拟实验中，我们使用反射式径向光调制器（SLM），利用多平面光转换（MPLC）构建了一个可编程模式分选器，在该实验中，我们使用单相干光源来描述 MPLC 的特性，从而以电子方式从两个紧密分离的准单色非相干发射器中拼凑出信号。

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Adaptive Super-Resolution Imaging Without Prior Knowledge Using a Programmable Spatial-Mode Sorter

We consider an imaging system tasked with estimating the angular distance between two incoherently-emitting sub-Rayleigh-separated point sources, without any prior knowledge of the centroid or the constellation and with a fixed collected-photon budget. It was shown theoretically that splitting the optical recording time into two stages -- focal-plane direct imaging to obtain a pre-estimate of the centroid, and using that estimate to center a spatial-mode sorter followed by photon detection of the sorted modes -- can achieve 10 to 100 times lower mean squared error in estimating the separation. In this paper, we demonstrate this in proof-of-concept, using a programmable mode sorter we have built using multi-plane light conversion (MPLC) using a reflective spatial-light modulator (SLM) in an emulated experiment where we use a single coherent source to characterize the MPLC to electronically piece together the signature from two closely-separated quasi-monochromatic incoherent emitters.

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arXiv - PHYS - Optics

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