Enhanced two-photon photoluminescence assisted by multi-resonant characteristics of a gold nanocylinder
Movsesyan Artur,
Lamri Gwénaëlle,
Kostcheev Sergei,
Horneber Anke,
Bräuer Annika,
Meixner Alfred J.,
Fleischer Monika,
Zhang Dai,
Baudrion Anne-Laure,
Adam Pierre-Michel
Affiliations
Movsesyan Artur
Laboratory Light, Nanomaterials & Nanotechnologies – L2n, University of Technology of Troyes & CNRS ERL 7004, 12 rue Marie Curie, 10000, Troyes, France
Lamri Gwénaëlle
Laboratory Light, Nanomaterials & Nanotechnologies – L2n, University of Technology of Troyes & CNRS ERL 7004, 12 rue Marie Curie, 10000, Troyes, France
Kostcheev Sergei
Laboratory Light, Nanomaterials & Nanotechnologies – L2n, University of Technology of Troyes & CNRS ERL 7004, 12 rue Marie Curie, 10000, Troyes, France
Horneber Anke
Bräuer Annika
Meixner Alfred J.
Fleischer Monika
Zhang Dai
Baudrion Anne-Laure
Laboratory Light, Nanomaterials & Nanotechnologies – L2n, University of Technology of Troyes & CNRS ERL 7004, 12 rue Marie Curie, 10000, Troyes, France
Adam Pierre-Michel
Laboratory Light, Nanomaterials & Nanotechnologies – L2n, University of Technology of Troyes & CNRS ERL 7004, 12 rue Marie Curie, 10000, Troyes, France
Multi-resonant plasmonic simple geometries like nanocylinders and nanorods are highly interesting for two-photon photoluminescence and second harmonic generation applications, due to their easy fabrication and reproducibility in comparison with complex multi-resonant systems like dimers or nanoclusters. We demonstrate experimentally that by using a simple gold nanocylinder we can achieve a double resonantly enhanced two-photon photoluminescence of quantum dots, by matching the excitation wavelength of the quantum dots with a dipolar plasmon mode, while the emission is coupled with a radiative quadrupolar mode. We establish a method to separate experimentally the enhancement factor at the excitation and at the emission wavelengths for this double resonant system. The sensitivity of the spectral positions of the dipolar and quadrupolar plasmon resonances to the ellipticity of the nanocylinders and its impact on the two-photon photoluminescence enhancement are discussed.
