Exciton Populations and Correlation Effects in Semiconductor Quantum Wires

Exciton Populations and Correlation Effects in Semiconductor Quantum Wires

In the presented work the dynamical properties of a population of bound excitons in a semiconductor quantum-wire is modelled theoretically. To this end, the Hamilton-operator H of the system is derived. Using the Heisenberg equation, equations of motion for the relevant elements of the reduced densi...

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Bibliografiske detaljer
Hovedforfatter: Siggelkow, Sven
Andre forfattere: Koch, Stephan (Prof. Dr.) (BetreuerIn (Doktorarbeit))
Format: Dissertation
Sprog:engelsk
Udgivet: Philipps-Universität Marburg 2006
Fag:
Electron states and collective excitations in multilayers, quantum wells, mesoscopic, and nanoscale systems (for electron states in nanoscale materials, see 73.22.-f)
Exciton-phonon interaction
Exziton
Exciton
Quantendraht
Excitons and related phenomena
Halbleiter
Quantumwire
Exciton-spectrum
Semiconductor
Exzitonenspektrum
Physik
Theories and models of many-electron systems
Physics
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Beskrivelse
Summary:In the presented work the dynamical properties of a population of bound excitons in a semiconductor quantum-wire is modelled theoretically. To this end, the Hamilton-operator H of the system is derived. Using the Heisenberg equation, equations of motion for the relevant elements of the reduced density matrix are obtained from the commutation with H. In our studies, we have have numerically simulated the coupled system of charge-carriers, longitudinal-accoustical (LA) phonons and many-body correlations. In the first part of the presented work, the stability of a population of bound excitons against scattering with LA-phonons is examined. A pronounced dependence on carrier-density and lattice-temperature is observed. The results are compared to calculations with a simple mass-action-law formalism. In the second part, dynamically calculated many-body correlations are used to study the influence of bound electron-hole pairs on exciton-spectra in linear absorption experiments.
Fysisk beskrivelse:92 Seiten
DOI:10.17192/z2006.0148

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