Elargissement spectral de l’émission de nanoemitteurs uniques soumis à de fortes excitations

Elargissement spectral de l’émission de nanoemitteurs uniques soumis à de fortes excitations

Responsable : Agnès Maître
Contact : agnes.maitre@insp.upmc.fr
Tutelle : Sorbonne Université
Mots clés : Experimental, Nano Photo-Phononique, Stage M2, Technologie quantique, et Theorique
Gratification : Oui
Page des stages de(s) l'équipe(s) : Acoustique et optique pour les nanosciences et le quantiqueNanophotonique et optique quantique
Description du stage

 

CdSe/CdS core/shell nanocrystal are excellent bright nano-emitters. At room temperature, they behave as high quantum efficiency single photon source thanks to the electronic confinement and efficient Auger processes. Single photon emission can be described by the recombination of a single exciton within a simple two-level system. Under low excitation power at room temperature, the emission linewidth is approximately Δ𝜆 ≈ 20 nm. However, by increasing the excitation power, emission spectrum broadens dramatically up to Δ𝜆 ≈ 150 nm (Fig1a). Moreover, the emission intensity grows non-linearly with increasing excitation power [1][2]. The two- levels system paradigm fails for interpreting those features. We have recently developed a model based on the radiative recombination of multiple excitonic levels within a single nanocrystal , relying on statistical description[3] of electron and hole populations in a quasi-equilibrium and on their recombination.

During the internship the student will consider different types of nano-emitter, quantum dots or quantum wells, and will study their emission under high excitation. He/She will then analyse the experimental datas using among others Bayesian methods, and extent our theoretical model.