Fyzikální ústav Akademie věd ČR

Optoelectronic properties of single-molecule junctions

Seminář Úterý, 10.05.2016 10:00 - 11:00

Přednášející: G. Schull (Institut de Physique et Chimie des Matériaux de Strasbourg)
Místo: Cukrovarnická 10, knihovna, budova A, 1. patro
Jazyk: anglicky
Pořadatelé: Oddělení tenkých vrstev a nanostruktur

Future ultrafast devices may rely on hybrid electronic-plasmonic circuitry. A keystone for the realization of such components is the production of transducers allowing to controllably couple electrical and plasmonic signals. Single-molecule light sources can be coupled to surface plasmons and have the ability to produce single-photon and narrow line emission, two mandatory characteristics for quantum computation applications. Conserving these characteristics for a single-molecule integrated in a hybid electronic-plasmonic circuit is challenging because of the required contact to metallic electrodes which alters the properties of the molecule.

Recently1, we showed that intrinsic radiative transitions of molecular junctions may be recovered when elongated molecules are used as bridging element. In this example, however, a broad emission band (FWHM ≥ 150 meV) is reported, indicating the poor coherence of the emitted light (Fig. 1a). In my presentation, I will report on the ultra narrow-line emission (FWHM ≈ 2.5 meV wide) from an electrically addressed molecular emitter suspended in the plasmonic junction of a scanning tunnelling microscope (STM) (Fig. 1b). I will show how progressive lifting of the emitter from the substrate provides control over the temporal coherence of the emission which is finally limited by interactions with low energy phonons. Our data also reveal the detailed mechanism that rules the complex interactions between the single-molecule emitter and localized surface plasmons. We envision that the extended coherence of the emission will open the way to nanoplasmonic devices integrating coherent molecular optoelectronic emitters as excitation sources2 .

 

[1] G .Reecht et al., Phys. Rev. Lett, 112, 047403 (2014).

[2] M. C. Chong et al,. Phys. Rev. Lett, 116, 036802 (2016).

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