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Accession Number:
ADP007857
Title:
Optical Line Shapes of Quantum Wells and Quantum Wires,
Corporate Author:
HITACHI LTD TOKYO (JAPAN) CENTRAL RESEARCH LAB
Report Date:
1992-05-22
Abstract:
Optical line shapes, which represent homogeneous broadenings due to carrier collisions, play a crucial role in estimating the linear and nonlinear susceptibilities of low-dimensional semiconductors. So far, the Lorentzian function has been widely used to analyze the gain and the refractive index in quantum-well QW and quantum-wire lasers. However, these papers have not proven that it is truly possible to approximate the line shapes with the Lorentzian function. In this paper, the authors theoretically derive the line shape functions of QW and quantum-wire structures based on a theory involving the non-Markovian relaxation processes. The understanding of the line shapes at high-carrier densities is vital for predicting semiconductor laser properties. It is also important for estimating the line shape functions at low-carrier densities. This is because line broadening must be minimized in order to lower the switching power of ultra-fast optical devices that utilize the virtual charge-induced optical nonlinearity VCON effect and the ac-Stark effect under low real-excited carrier density conditions.
Supplementary Note:
This article is from 'Organization of the Optical Society of America Photonic science Topical Meeting Series. Volume 7. Quantum Optoelectronics Held in Salt Lake City, Utah on 11-13 March 1991,' AD-A253 823, p169-172.
Pages:
0004
File Size:
0.00MB
