CAOL 2008, September 29 - October 4, Alushta, Crimea, Ukraine NONEQUILIBRIUM APPROACH FOR INTERSUBBAND OPTICS (Invited paper) Mauro Fernandes Pereira Shefffeld Hallam University, United Kingdom Abstract: In this review I summarize current challenges for intersubband laser development devices from a microscopic point of view, as well as recent theoretical results, which indicate the relevance of nonequilibrium many body effects in the complex scattering and correlation microscopic mechanisms underlying the operation of those devices. The strongly nonthermal nature of the electronic wave functions, the fact that the energy difference between the subbands relevant for laser action are of the order of many body effects, and of the resulting level broadening, the Coulomb enhanced cross absorption, as well as the need to account for dephasing in the transport, require our advanced nonequilibrium many body approach for predictive simulations. I further demonstrate that the coupling between light and intersubband excitations in semiconductors is fundamentally different from the well understood coupling to interband transitions leading to excitonic polaritons. Dispersion relations of a more appropriate intersubband antipolariton quasiparticle concept are presented. 260 978-1-4244-197 - /08/$25.00 ©2008 IEEE

[IEEE 2008 International Conference on Advanced Optoelectronics and Lasers (CAOL) - Alushta, Crimea, Ukraine (2008.09.29-2008.10.4)] 2008 4th International Conference on Advanced Optoelectronics

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Page 1: [IEEE 2008 International Conference on Advanced Optoelectronics and Lasers (CAOL) - Alushta, Crimea, Ukraine (2008.09.29-2008.10.4)] 2008 4th International Conference on Advanced Optoelectronics

CAOL 2008, September 29 - October 4, Alushta, Crimea, Ukraine

NONEQUILIBRIUM APPROACH FOR INTERSUBBAND OPTICS

(Invited paper)

Mauro Fernandes Pereira

Shefffeld Hallam University, United Kingdom

Abstract: In this review I summarize current challenges for intersubband laser development devices from a microscopic point of view, as well as recent theoretical results, which indicate the relevance of nonequilibrium many body effects in the complex scattering and correlation microscopic mechanisms underlying the operation of those devices. The strongly nonthermal nature of the electronic wave functions, the fact that the energy difference between the subbands relevant for laser action are of the order of many body effects, and of the resulting level broadening, the Coulomb enhanced cross absorption, as well as the need to account for dephasing in the transport, require our advanced nonequilibrium many body approach for predictive simulations. I further demonstrate that the coupling between light and intersubband excitations in semiconductors is fundamentally different from the well understood coupling to interband transitions leading to excitonic polaritons. Dispersion relations of a more appropriate intersubband antipolariton quasiparticle concept are presented.

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