Electromagnetic theory of the coupling of zero-dimensional exciton and photon states: A quantum dot in a spherical microcavity

Kaliteevski, MA; Brand, S; Abram, RA; Nikolaev, VV; Maximov, MV; Sotomayor Torres, CM; Kavokin, AV

doi:10.1103/physrevb.64.115305

Electromagnetic theory of the coupling of zero-dimensional exciton and photon states: A quantum dot in a spherical microcavity

Kaliteevski, MA; Brand, S; Abram, RA; Nikolaev, VV; Maximov, MV; Sotomayor Torres, CM; Kavokin, AV

Authors

MA Kaliteevski

S Brand

RA Abram

VV Nikolaev

MV Maximov

CM Sotomayor Torres

AV Kavokin

Abstract

Exciton-light coupling in spherical microcavities containing quantum dots has been treated by means of classical electrodynamics within the nonlocal dielectric response model. Typical anticrossing behavior of zero-dimensional exciton-polariton modes has been obtained, as well as the weak-coupling-strong-coupling threshold. The influence of the cavity Q factor on the optical response of the structure has been analyzed.

Citation

Kaliteevski, M., Brand, S., Abram, R., Nikolaev, V., Maximov, M., Sotomayor Torres, C., & Kavokin, A. (2001). Electromagnetic theory of the coupling of zero-dimensional exciton and photon states: A quantum dot in a spherical microcavity. Physical review B, 64(11), https://doi.org/10.1103/physrevb.64.115305

Journal Article Type	Article
Publication Date	2001-09
Deposit Date	Feb 20, 2008
Publicly Available Date	Sep 15, 2010
Journal	Physical Review B
Print ISSN	1098-0121
Electronic ISSN	1550-235X
Publisher	American Physical Society
Peer Reviewed	Peer Reviewed
Volume	64
Issue	11
DOI	https://doi.org/10.1103/physrevb.64.115305
Keywords	Fine-Structure, Wells, Polaritons, Reflection, Spectra.