Single-photon sub-Rayleigh precision measurements of a pair of incoherent sources of unequal intensity

Luigi Santamaria, Fabrizio Sgobba, and Cosmo Lupo
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Abstract

Interferometric methods have been recently investigated to achieve sub-Rayleigh imaging and precision measurements of faint incoherent sources up to the ultimate quantum limit. Here we consider single-photon imaging of two point-like emitters of unequal intensity. This is motivated by the fact that pairs of natural emitters typically have unequal brightness, for example, binary star systems and exoplanets. We address the problem of estimating the transverse separation d or the relative intensity \epsilon. Our theoretical analysis shows that the associated statistical errors are qualitatively different from the case of equal intensity. We employ multi-plane light conversion technology to implement Hermite–Gaussian (HG) spatial-mode demultiplexing (SPADE), and demonstrate sub-Rayleigh measurement of two emitters with a Gaussian point-spread function. The experimental errors are comparable with the theoretical bounds. The latter are benchmarked against direct imaging, yielding an \epsilon ^{-1/2} improvement in the signal-to-noise ratio, which may be significant when the primary source is much brighter than the secondary one, for example, as for imaging of exoplanets.
对一对强度不等的非相干光源进行单光子亚瑞利精密测量
最近研究了干涉测量方法,以实现亚雷利光成像和对微弱非相干光源的精确测量,直至量子极限。在这里,我们考虑对两个不等强度的点状发射体进行单光子成像。这是因为成对的自然发射体通常具有不等的亮度,例如双星系统和系外行星。我们要解决的问题是估计横向间隔 d 或相对强度 \epsilon\epsilon。我们的理论分析表明,相关的统计误差与等强度的情况有本质的区别。我们采用多平面光转换技术来实现赫米特-高斯(HG)空间模式解复用(SPADE),并演示了两个具有高斯点扩散函数的发射器的亚雷利测量。实验误差与理论限值相当。后者以直接成像为基准,在信噪比方面得到了 \epsilon ^{-1/2}\epsilon ^{-1/2} 的改善,当主源比副源亮得多时,例如系外行星成像时,信噪比可能会显著提高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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