| Literature DB >> 20052169 |
Tim Zander1, Andreas Herklotz, Suwit Kiravittaya, Mohamed Benyoucef, Fei Ding, Paola Atkinson, Santosh Kumar, Johannes D Plumhof, Kathrin Dörr, Armando Rastelli, Oliver G Schmidt.
Abstract
Arrays of GaAs microring optical resonators with embedded InGaAs quantum dots (QDs) are placed on top of Pb(Mg(1/3)Nb(2/3))O(3)-PbTiO(3) piezoelectric actuators, which allow the microcavities to be reversibly "stretched" or "squeezed" by applying relatively large biaxial stresses at low temperatures. The emission energy of both QDs and optical modes red- or blue- shift depending on the strain sign, with the QD emission shifting more rapidly than the optical mode with applied strain. The QD energy shifts are used to estimate the strain in the structures based on linear deformation potential theory and the finite element method. The shift of the modes is attributed to both the physical deformation and the change in refractive index due to the photoelastic effect. Remarkably, excitonic emissions from different QDs are observed to shift at different rates, implying that this technique can be used to bring spatially separated excitons into resonance.Mesh:
Year: 2009 PMID: 20052169 DOI: 10.1364/OE.17.022452
Source DB: PubMed Journal: Opt Express ISSN: 1094-4087 Impact factor: 3.894