Title :
Subpicosecond hot luminescence in III-V compounds
Author :
Scholz, Reinhard ; Stahl, Arne ; Zhou, Xiang-Qian ; Leo, Karl ; Kurz, Heinrich
Author_Institution :
Inst. fuer Theor. Phys., RWTH Aachen, Germany
fDate :
10/1/1992 12:00:00 AM
Abstract :
The optical response of hot carriers in III-V compounds is modeled within a density matrix formalism. As a starting point for the calculation of the luminescence, a four-point electron-hole density matrix has to be used. The band structure is described by a realistic model including all hole subbands and Γ, L, and X valleys of the conduction band. The theory is compared in detail with recent time-resolved and spectrally resolved luminescence up-conversion results. Satisfactory agreement can be obtained even with a rather simple exponential relaxation ansatz for the energies of internally thermalized electron and hole distributions. It is argued that the detected luminescence intensity must be distinguished from the photon generation rate
Keywords :
III-V semiconductors; band structure of crystalline semiconductors and insulators; hot carriers; luminescence of inorganic solids; photoluminescence; time resolved spectra; III-V compounds; band structure; conduction band; density matrix formalism; four-point electron-hole density matrix; hole subbands; hot carriers; internally thermalised electron distributions; internally thermalised hole distributions; optical response; subpicosecond hot luminescence; time resolved luminescence; Frequency; III-V semiconductor materials; Lattices; Luminescence; Optical scattering; Particle scattering; Plasma temperature; Probes; Stimulated emission; Ultrafast optics;
Journal_Title :
Quantum Electronics, IEEE Journal of
