Pressure Raman scattering of CdTe quantum dots
- 15 March 1997
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 55 (11) , 6743-6746
- https://doi.org/10.1103/physrevb.55.6743
Abstract
A series of zinc-blende CdTe quantum dots in glass was investigated using Raman scattering and luminescence. The dot size was controlled by varying the annealing conditions. Luminescence was employed as a probe for quality of the sample and its adequacy for resonance. Resonant Raman spectra at the lowest confined energy levels of the quantum dots were obtained in function of the pressure in the range 1 bar to 4.6 GPa. The upper limit was established by a phase transition probably to NaCl structure, simultaneous with disappearance of Raman signal. In the latter phase, first-order Raman scattering is forbidden. The Grüneisen parameter for the LO phonon of CdTe quantum dots is given.Keywords
This publication has 15 references indexed in Scilit:
- The influence of semiconductor concentration on the size dispersion of quantum dots in glassJournal of Materials Science Letters, 1996
- Laser induced darkening in CdTe quantum dots without trapsJournal of Materials Science Letters, 1996
- Probing of the quantum dot size distribution in CdTe-doped glasses by photoluminescence excitation spectroscopyApplied Physics Letters, 1995
- Quantum-size effects on the band edge of CdTe clusters in glassJournal of Applied Physics, 1994
- Analytical formalism for determining quantum-wire and quantum-dot band structure in the multiband envelope-function approximationPhysical Review B, 1990
- Application of a total-angular-momentum basis to quantum-dot band structurePhysical Review Letters, 1990
- Luminescence and particle size in microcrystalline CdTe thin filmsJournal of Crystal Growth, 1988
- Effect of size nonuniformity on the absorption spectrum of a semiconductor quantum dot systemApplied Physics Letters, 1987
- Raman scattering study of the properties and removal of excess Te on CdTe surfacesApplied Physics Letters, 1984
- Hydrostatic limits in liquids and solids to 100 kbarJournal of Applied Physics, 1973