Experimental test of the entanglement enhancement in two-photon fluorescence

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Abstract

Entangled photons with time-energy correlations are predicted to have improved sensitivity compared with classical light in two-photon fluorescence, which is promising for lowering the phototoxicity in biomedical imaging. While the mechanism has been demonstrated in atoms and crystals, the effectiveness in biological molecules has been under debate. Here we report the experimental results, including both positive and negative ones, in various samples. While entanglement induced enhancement in the sum frequency generation of a nonlinear crystal was confirmed, we observe no such enhancement in the two-photon nonlinear process of various molecules. However, we observed classical two-photon fluorescence excited by nW light in rare earth element doped core-shell structure nano-crystals, which can also be used in sensitive biomedical imaging. Our results provide guidance in characterizing the effect of entanglement in two-photon processes.

双光子荧光中纠缠增强的实验测试
摘要 与经典光相比,具有时间-能量相关性的纠缠光子在双光子荧光中被认为具有更高的灵敏度,有望降低生物医学成像中的光毒性。虽然该机制已在原子和晶体中得到证实,但其在生物分子中的有效性还存在争议。在此,我们报告了在各种样品中的实验结果,包括正反两方面的结果。虽然非线性晶体的和频生成中纠缠诱导增强得到了证实,但我们在各种分子的双光子非线性过程中没有观察到这种增强。不过,我们在掺稀土元素的核壳结构纳米晶体中观察到了由 nW 光激发的经典双光子荧光,这也可用于敏感的生物医学成像。我们的研究结果为描述双光子过程中的纠缠效应提供了指导。
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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