利用可变光学亚波长金属微腔调控单分子的荧光发射光谱。

Tuning the fluorescence emission spectra of a single molecule with a variable optical subwavelength metal microcavity.

作者信息

Chizhik Alexey, Schleifenbaum Frank, Gutbrod Raphael, Chizhik Anna, Khoptyar Dmitry, Meixner Alfred J, Enderlein Jörg

机构信息

Institute of Physical and Theoretical Chemistry, Eberhard Karls University, 72076 Tübingen, Germany.

出版信息

Phys Rev Lett. 2009 Feb 20;102(7):073002. doi: 10.1103/PhysRevLett.102.073002. Epub 2009 Feb 18.

DOI:10.1103/PhysRevLett.102.073002

PMID:19257662

Abstract

We present experimental and theoretical results on changing the fluorescence emission spectrum of a single molecule by embedding it within a tunable planar microcavity with subwavelength spacing. The cavity length is changed with nanometer precision by using a piezoelectric actuator. By varying its length, the local mode structure of the electromagnetic field is changed together with the radiative coupling of the emitting molecule to the field. Because mode structure and coupling are both frequency dependent, this leads to a renormalization of the emission spectrum of the molecule. We develop a theoretical model for these spectral changes and find excellent agreement between theoretical prediction and experimental results.

摘要

我们展示了通过将单个分子嵌入具有亚波长间距的可调谐平面微腔中来改变其荧光发射光谱的实验和理论结果。利用压电致动器，可将腔长以纳米精度进行改变。通过改变腔长，电磁场的局部模式结构以及发射分子与该场的辐射耦合都会发生变化。由于模式结构和耦合都与频率相关，这导致了分子发射光谱的重整化。我们针对这些光谱变化建立了一个理论模型，并发现理论预测与实验结果之间具有很好的一致性。

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利用可变光学亚波长金属微腔调控单分子的荧光发射光谱。

Tuning the fluorescence emission spectra of a single molecule with a variable optical subwavelength metal microcavity.

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