Modelling of strong coupling regime in bulk GaN microcavities using transfer matrix and quasiparticle formalisms

Modelling of strong coupling regime in bulk GaN microcavities using transfer matrix and quasiparticle formalisms

The evolution of the polaritonic Rabi splitting versus the excitonic broadenings is analyzed within two different formalisms: the transfer-matrix and the quasiparticle models. The splittings are deduced from angle-resolved reflectivity measurements performed at 5 K and 300 K on two GaN microcavities...

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Veröffentlicht in:Solid state communications 2010, Vol.150 (1), p.122-126
Hauptverfasser: Réveret, F., Disseix, P., Leymarie, J., Vasson, A., Semond, F., Leroux, M., Massies, J.
Format: Artikel
Sprache:eng
Schlagworte:
A. Semiconductors
C. Microcavities
Collective excitations (including excitons, polarons, plasmons and other charge-density excitations)
Condensed matter: electronic structure, electrical, magnetic, and optical properties
D. Strong coupling
E. Optical spectroscopy
Electronic structure and electrical properties of surfaces, interfaces, thin films and low-dimensional structures
Exact sciences and technology
Iii-v semiconductors
Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation
Optical properties of specific thin films
Physics
Surface and interface electron states
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Zusammenfassung:The evolution of the polaritonic Rabi splitting versus the excitonic broadenings is analyzed within two different formalisms: the transfer-matrix and the quasiparticle models. The splittings are deduced from angle-resolved reflectivity measurements performed at 5 K and 300 K on two GaN microcavities grown on silicon. Although the quasiparticle model allows a qualitative analysis when the quality factor of the cavity is high, the transfer-matrix formalism is more appropriate for the interpretation of the reflectivity spectra, whatever the configuration of the structure.
ISSN:0038-1098
1879-2766
DOI:10.1016/j.ssc.2009.09.036