Non-linear excitation and correlation studies of single InGaN quantum dots
Physica Status Solidi C Current Topics in Solid State Physics 6:4 (2009) 864-867
Abstract:
The exact mechanism for non-linear sub-bandgap excitation of single InGaN quantum dots (QDs) has been investigated using interferometric autocorrelation techniques based around a near-infrared (NIR) excitation laser. We identify unambiguously the heavily favoured two-photon absorption (TPA) as being crucial in the observed background reduction for such Nitride structures and compare systematically the relative merits of both the linear (blue) and non-linear (NIR) excitation regimes on several apertures of a masked sample. © 2009 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.Design of leaky modes of two-dimensional photonic crystal slabs to enhance the luminescence from Er3N@C80 fullerenes
Optics Communications 282:17 (2009) 3637-3640
Abstract:
We develop an effective way to engineer a two-dimensional GaAs photonic crystal slab with its leaky eigenmodes at desired wavelengths by investigating its spectral dispersion, particularly in terms of transmission efficiency spectra at different launch angles of the light beam. Structural parameters for the photonic crystal slab with leaky eigenmode wavelengths at both 1492 nm and 1519 nm are obtained. This may lead to the enhanced luminescence from erbium-doped trinitride-template fullerenes (ErAcuminated fluorescence of Er3 + centres in endohedral fullerenes through the incarceration of a carbide cluster
Chemical Physics Letters 476:1-3 (2009) 41-45
Abstract:
Photoluminescence spectroscopic measurements have allowed the acquisition of high resolution spectra at low temperature for the endohedral metallofullerenes, ErMapping cavity modes of ZnO nanobelts
Applied Physics Letters 94:23 (2009)
Abstract:
ZnO nanostructures attract current interest because they have the potential to implement cavity quantum electrodynamics at room temperature. We report a photoluminescence mapping of ZnO nanobelts both at room temperature and 4.2 K. The multicavity modes were observed all over the belt surface, which were induced by Fabry-Ṕrot interference. The emission from the belt surface is enhanced at both the ends and the sides of the belt, and is highly linearly polarized in the direction perpendicular to the long axis of the belt. The results are explained using finite-difference time-domain simulations. © 2009 American Institute of Physics.Two-photon autocorrelation measurements on a single InGaN/GaN quantum dot
Nanotechnology IOP Publishing 20:24 (2009) 245702