光谱学利用由另一分子发射的单个光子对单个分子进行的光谱学

Y. Rezus, S. Walt, G. Zumofen, A. Renn, S. Gotzinger, V. Sandoghdar
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引用次数: 0

摘要

任何关于光与物质相互作用的研究都涉及光子和原子等物质粒子。然而,绝大多数这样的实验都是用物质和光粒子的大集合来进行的。量子光学和纳米光学的最新进展使得利用激光探测、检查和操纵单个原子、离子或分子成为可能。此外,单个原子、离子和分子已被许多群体确定为单个光子的来源。然而,关于单光子与单原子相互作用的实验很少,而且仅限于高精细腔中的强耦合状态。根本的挑战在此类实验中是限制光足够有效,与单个光子相关的电场会导致原子激发。我们最近的理论和实验工作表明,这应该是可能的使用紧密聚焦激光束[1,2]。在这篇报告中,我们首次报道了单分子的光谱学,使用的是另一个单分子在远距离产生的自由传播的单光子流,如图1a[3]所示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spectroscopy of a single molecule using single photons emitted by another molecule
Any study of the light-matter interaction involves photons and matter particles such as atoms. However, the great majority of such experiments have been performed using large ensembles of matter and light particles. Recent advances in quantum optics and nano-optics have made it possible to detect, examine, and manipulate single atoms, ions, or molecules using laser light. Furthermore, single atoms, ions and molecules have become established as sources of single photons by many groups. Nevertheless, experiments on the interaction of single photons with single atoms have been few and restricted to the strong coupling regime in high-finesse cavities. The fundamental challenge in such experiments is to confine light efficiently enough so that the electric field associated with a single photon can lead to atomic excitation. Our recent theoretical and experimental works have indicated that this should be possible using a tightly-focused laser beam [1, 2]. In this presentation, we report for the first time on the spectroscopy of single molecules using a freely-propagating stream of single photons produced by another single molecule placed at a large distance, as sketched in Figure 1a [3].
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