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Technology and properties of GaAs doping superlattices

Ściana B., Radziewicz D., Pucicki D., Tłaczała M., Sęk G., Poloczek P., Misiewicz J., Kováč J., Srnanek R., Christofi A.

Materials Science Poland

2008

Vol. 26, No. 1

71--78

Heterojunction and doping superlattices are widely used in many advanced semiconductor devices such as resonant tunnelling diodes, optical modulators, cascade lasers, tunable light emitting diodes and photodetectors. These structures exhibit nonlinear electrooptical properties. Nonlinear processes are governed by the Franz-Keldysh effect and the band-filling effect in the n-i-p-i superlattices and by the quantum-confined Stark effect in the case of n-i-p-i multiple quantum well structures. The paper presents investigations of GaAs n-i-p-i and p-i-p-i doping superlattices grown by atmospheric pressure metal organic vapour phase epitaxy. The properties of the obtained structures were examined using: EC-V method, SIMS spectrometry, photoluminescence and photoreflectance spectroscopy.

Optical gain in one-dimensional photonic band gap structures with n-i-p-i crystal layers

Nefedov I.S., Gusyatnikov V.N., Marciniak M., Kononenko V.K., Ushakov D.V.

Journal of Telecommunications and Information Technology

2002

nr 1

60-64

The gain enhancement in a layered periodic photonic band gap structure containing active medium based on GaAs n-i-p-i superlattices separated by A1GaAs layers is analyzed. The dependences of extinction coefficient and refractive index on excitation level and wavelength are presented. Transmission characteristics of a probe light versus excitation level are calculated. It is shown that the threshold of generation can be essentially reduced if the wavelength of probe light falls to the band gap edge.