GaAsj AIGaAs Far-Infrared Quantum Cascade Laser

In this thesis I investigated the feasibility of an optically pumped intersubband farinfrared (40-100 j,lm) laser, using GaAs/ AlxGal-xAs heterostructures. The proposed design aims to use LO-phonon-mediated depopulation of the lower THz laser level to aid the intersubband laser population inversion. Interband recombination occurs by means of stimulated emission, thus combining an interband (rv 1550 meV) and intersubband (rv 16-18 meV) laser. As the subband properties of both the valence band and the conduction band are important for this work, a numerical program code was developed for the valence band to supplement the available tools for the conduction band. The steady state rate equations for the proposed quantum well structure were solved self-consistently for several different carrier temperatures. The calculations indicate that a pump beam of moderate power (0.5-1 W) concentrated on a device of typical dimensions (104 cm2) can generate an intersuhband gain of 20 cm-1 at 50 K for a THz emission linewidth of 2 meV. This gain level can suffice to obtain THz lasing action, provided that the cavity losses can be kept in check. The performance of the THz laser is predicted to be very dependent on electron temperature, mainly due to the opening of a parasitic LO-phonon channel between the THz laser levels. Interhand lasing seems to be easier to obtain, as the calculated threshold pump intensity is lower than for the intersubband case. Thesis Supervisor: Qing Hu Title: Associate Professor of Electrical Engineering and Computer Science