Abstract
The invention of semiconductor multi-quantum wells and the following discovery of large optical nonlinearities in them [1] have started a substantial research effort into the properties of such two-dimensional quantum confined systems. Furthermore the question of further reducing the electron dimensionality and the associated scaling laws [2] has arisen. By reducing the electron dimensionalities by confining them physically in two and three dimensions beyond their de-Broglie wavelength, the situation of the idealized "particle-in-the-box" is realized. Associated with this behavior is an increase in the exciton binding energy (observable at room temperature) and in oscillator strength, and hence also an increase of the optical nonlinearity arising from the saturation of this transition. By suitable choice of chemical systems this low dimensional behavior can be experimentally approached.
© 1988 Optical Society of America
PDF ArticleMore Like This
T. Gotoh, T. Kondoh, K. Egawa, and K. Kubodera
MA3 Nonlinear Optical Properties of Materials (NLOPM) 1988
T. Takagahara
ThB4 International Quantum Electronics Conference (IQEC) 1988
S. Y. Yuen and P. A. Wolff
TuA2 Nonlinear Optical Properties of Materials (NLOPM) 1988