5.6 Optical Processes in QWRs
The calculation of gain or absorption coefficient may be performed as usual by assuming the k-conservation condition to be valid along the direction of free motion (x-direction). The absorption coefficient is expressed as
where we have dropped the subscript x to the wave vector. The symbol Eg denotes the effective gap which is the bulk band gap plus the electron and hole subband energies. The summation over k may be converted into an integral and, assuming fe − fh = 1, the integration may be carried out to yield 29
where
(5.72) 
The coefficients A1D and C1D have similar meanings to Amn and Cmn in QWs, and A is the cross-sectional area of the wire. The polarization dependence of the matrix element is discussed in 1.
Eq. (5.71) shows that the absorption coefficient is proportional to the joint density-of-states function. The absorption coefficient shows a singularity at photon energy equal to the effective band gap energy and falls with increasing photon energy. The sharp feature is smoothed out by including the effect of broadening. The expression for the gain is written by replacing the δ-function in Eq. (5.70) by a Lorentzian with an intraband ...
Get Silicon Photonics: Fundamentals and Devices now with the O’Reilly learning platform.
O’Reilly members experience books, live events, courses curated by job role, and more from O’Reilly and nearly 200 top publishers.
