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- Title
Hybrid plasmonic nano-emitters with controlled single quantum emitter positioning on the local excitation field.
- Authors
Ge, Dandan; Marguet, Sylvie; Issa, Ali; Jradi, Safi; Nguyen, Tien Hoa; Nahra, Mackrine; Béal, Jéremie; Deturche, Régis; Chen, Hongshi; Blaize, Sylvain; Plain, Jérôme; Fiorini, Céline; Douillard, Ludovic; Soppera, Olivier; Dinh, Xuan Quyen; Dang, Cuong; Yang, Xuyong; Xu, Tao; Wei, Bin; Sun, Xiao Wei
- Abstract
Hybrid plasmonic nano-emitters based on the combination of quantum dot emitters (QD) and plasmonic nanoantennas open up new perspectives in the control of light. However, precise positioning of any active medium at the nanoscale constitutes a challenge. Here, we report on the optimal overlap of antenna's near-field and active medium whose spatial distribution is controlled via a plasmon-triggered 2-photon polymerization of a photosensitive formulation containing QDs. Au nanoparticles of various geometries are considered. The response of these hybrid nano-emitters is shown to be highly sensitive to the light polarization. Different light emission states are evidenced by photoluminescence measurements. These states correspond to polarization-sensitive nanoscale overlap between the exciting local field and the active medium distribution. The decrease of the QD concentration within the monomer formulation allows trapping of a single quantum dot in the vicinity of the Au particle. The latter objects show polarization-dependent switching in the single-photon regime. The authors study, on hybrid plasmonic nano-emitters, the spatial overlap between the exciting optical near-field and the nanoscale active medium whose position is controlled via surface plasmon-triggered two-photon polymerization. They also demonstrate such systems down to the single photon level.
- Subjects
ACTIVE medium; OPTICAL polarization; PHOTOLUMINESCENCE measurement; QUANTUM dots; NANOPARTICLES; POLARITONS; PLASMONS (Physics)
- Publication
Nature Communications, 2020, Vol 11, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-020-17248-8