Title :
Elastic LO-phonon scattering as an efficient mechanism of dephasing and homogeneous broadening in quantum dots
Author :
Uskov, A.V. ; Tromborg, Bjarne ; Jauho, A.-P. ; Mork, Jesper ; Lang, Richard
Author_Institution :
Lebedev (P.N.) Phys. Inst., Moscow, Russia
Abstract :
Summary form only given. The predicted improved performance of a semiconductor laser with active regions based on quantum dots (QDs) is presently being explored in many laboratories. One of the major issues is to investigate how a discrete energy level in the QD can be populated, if the spacings to other levels do not match the LO phonon energy. We show, that even though the level structure of the quantum dot does not allow carrier transitions between the levels mediated by LO phonons, the elastic scattering of LO phonons on the confined carriers is an efficient dephasing mechanism. Our calculations show that the dephasing results in a homogeneous linewidth of the order of 6 meV, which is consistent with recent experimental findings. A similar approach has been used to explain the line broadening in doped crystals.
Keywords :
Fourier transform optics; electron-phonon interactions; interface states; laser beams; quantum well lasers; semiconductor quantum dots; LO phonon energy; active regions; carrier transitions; confined carriers; dephasing; dephasing mechanism; discrete energy level; doped crystals; elastic LO-phonon scattering; elastic scattering; homogeneous broadening; homogeneous linewidth; improved performance; level structure; line broadening; quantum dot; quantum dots; semiconductor laser; Acoustic scattering; Carrier confinement; Charge carrier processes; Energy states; Particle scattering; Phonons; Quantum dot lasers; Quantum dots; Shape; Temperature;
Conference_Titel :
Quantum Electronics and Laser Science Conference, 2000. (QELS 2000). Technical Digest
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
1-55752-608-7
