Nonlinear Optical Properties Of Quantum Confined Semiconductor Crystallites

P. Roussignol; D. Ricard; C. Flytzanis; N. Neuroth

doi:10.1117/12.961407

22 December 1989 Nonlinear Optical Properties Of Quantum Confined Semiconductor Crystallites

P. Roussignol, D. Ricard, C. Flytzanis, N. Neuroth

Proceedings Volume 1127, Nonlinear Optical Materials II; (1989) https://doi.org/10.1117/12.961407
Event: 1989 International Congress on Optical Science and Engineering, 1989, Paris, France

Abstract

The nonlinear optical properties of commercial semiconductor-doped glasses containing "large" particles being now reasonably well understood, attention is now focused on smaller particles clearly exhibiting quantum confinement. Nonlinear absorption measurements clearly demonstrate the important role of electron-phonon coupling in the broadening of the ls-ls transition. Spectral hole burning is observed at low temperature. Optical phase conjugation measurements confirm the expected increase in the nonlinearity due to confinement.

Citation Download Citation

P. Roussignol, D. Ricard, C. Flytzanis, and N. Neuroth "Nonlinear Optical Properties Of Quantum Confined Semiconductor Crystallites", Proc. SPIE 1127, Nonlinear Optical Materials II, (22 December 1989); https://doi.org/10.1117/12.961407

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