State Selective Pumping Reveals Spin-Relaxation Pathways in CdSe Quantum Dots
Language
en
Article de revue
This item was published in
Nano Letters. 2014-07-21, vol. 14, n° 8, p. 4480-4485
American Chemical Society
English Abstract
The band-edge exciton in elongated CdSe nanocrystals is composed of an upper and lower manifold associated with heavy and light holes in which the energy separation is sensitive to the nanocrystal shape. Using resonant ...Read more >
The band-edge exciton in elongated CdSe nanocrystals is composed of an upper and lower manifold associated with heavy and light holes in which the energy separation is sensitive to the nanocrystal shape. Using resonant photoluminescence excitation, we probe the upper heavy hole exciton manifold and find rapid relaxation to the lower light hole manifold on a 5 ps time scale. State selective excitation allows the preparation of single quantum states in this system. We used this to map the hole spin relaxation pathways between the fine structure sublevels, which have energy splittings incommensurate with either optical or acoustic phonon energies. This reveals a hitherto unexpected hole spin-relaxation channel in these materials.Read less <
English Keywords
CdSe
single nanocrystal
Photoluminescence
Photoluminescence excitation
quantum dot
spin relaxation
Origin
Hal imported