Andreas Wacker
Published 2002-07-02Version 1
Gain in current-driven semiconductor heterostructure devices is calculated within the theory of nonequilibrium Green functions. In order to treat the nonequilibrium distribution self-consistently the full two-time structure of the theory is employed without relying on any sort of Kadanoff-Baym Ansatz. The results are independent of the choice of the electromagnetic field if the variation of the self-energy is taken into account. Excellent quantitative agreement is obtained with the experimental gain spectrum of a quantum cascade laser. Calculations for semiconductor superlattices show that the simple 2-time miniband transport model gives reliable results for large miniband widths at room temperature
Comments: 8 Pages, 4 Figures directly included, to appear in Physical Review B
Journal: Physical Review B 66, 085326 (2002)
Intersubband gain in a Bloch oscillator and Quantum cascade laser
Influence of disorder and a parallel magnetic field on a Quantum Cascade Laser
Gain and Loss in Quantum Cascade Lasers
