Quantum Optoelectronics

Asymmetry of localised states in a single quantum ring: Polarization dependence of excitons and biexcitons

Applied Physics Letters 102:3 (2013)

Authors:

HD Kim, K Kyhm, RA Taylor, G Nogues, KC Je, EH Lee, JD Song

Abstract:

We performed spectroscopic studies of a single GaAs quantum ring with an anisotropy in the rim height. The presence of an asymmetric localised state was suggested by the adiabatic potential. The asymmetry was investigated in terms of the polarization dependence of excitons and biexcitons, where a large energy difference (∼ 0.8 meV) in the exciton emission energy for perpendicular polarizations was observed and the oscillator strengths were also compared using the photoluminescence decay rate. For perpendicular polarizations, the biexciton exhibits twice the energy difference seen for the exciton, a fact that may be attributed to a possible change in the selection rules for the lowered symmetry. © 2013 American Institute of Physics.

Growth of InGaN quantum dots with AlGaN barrier layers via modified droplet epitaxy

MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE MATERIALS 178:20 (2013) 1390-1394

Authors:

Rachel A Oliver, Haitham AR El-Ella, Daniel P Collins, Benjamin Reid, Yucheng Zhang, Fiona Christie, Menno J Kappers, Robert A Taylor

Strongly Luminescent States in Etched Silicon Nanowires

WOMEN IN PHYSICS 1517 (2013) 226-227

Authors:

Maria Hadjipanayi, Felix Voigt, Vladimir Sivakov, Xu Wang, Robert A Taylor, Gottfried H Bauer, Silke Christiansen

Corrigendum: Selective self-assembly and characterization of GaN nanopyramids on m-plane InGaN/GaN quantum disks

Nanotechnology IOP Publishing 23:49 (2012) 499502

Authors:

Young S Park, Mark J Holmes, Robert A Taylor, Kwang S Kim, Seung-Woong Lee, HaeRi Ju, Hyunsik Im

Optical cavity efficacy and lasing of focused ion beam milled GaN/InGaN micropillars

Journal of Applied Physics 112:11 (2012)

Authors:

HAR El-Ella, DP Collins, MJ Kappers, RA Taylor, RA Oliver

Abstract:

Focused ion beam milled micropillars employing upper and lower distributed Bragg reflectors (DBRs) and incorporating InGaN quantum dots were analysed both microstructurally and optically. Comparison of the surface characteristics and the optical resonance of pillars milled employing two recipes, using comparatively higher and lower beam currents, were carried out through electron back scatter diffraction, atomic force microscopy and low temperature micro-photoluminescence. Low temperature micro-photoluminescence highlighted singly resolved InGaN quantum dot emission as well as modes with typical quality factors (Q) of ∼200-450 for typical 1-4μm diameter pillars, while one exceptional 4μm diameter pillar displayed optically-pumped lasing with a Q of ∼1100 at a threshold of ∼620 kWcm-2. The higher current recipe resulted in pillars with thicker surface amorphous layers, while the lower current recipe resulted in pillars with thinner surface amorphous layers but rougher surfaces. Micropillars milled through the recipe utilising higher beam currents were tentatively shown to possess lower Qs on average, correlating with the thickness of the surface amorphous layer. Finite difference frequency domain simulations in combination with analytical approximations of the various optical loss pathways suggested that surface scattering related optical loss was not significant compared to internal-based and surface absorption-based losses. The magnitude of the internal loss was observed to fluctuate significantly, which was thought to relate to the fluctuating micro-structure within the lower DBR and within the InGaN quantum dot layer. © 2012 American Institute of Physics.