Professor Robert Taylor

Quantum confined Stark effect of InGaN/GaN multi-quantum disks grown on top of GaN nanorods

Nanotechnology 21:11 (2010)

Authors:

YS Park, MJ Holmes, TW Kang, RA Taylor

Abstract:

We have investigated, using micro-photoluminescence, the quantum confined Stark effect in an InxGa1 - xN/GaN multi-quantum disk structure at the tip of a single GaN nanorod. A strong and sharp emission line from the InxGa1 - xN/GaN quantum disks near 3.26eV was observed. The peak energy of the emission line was observed to blue-shift with increasing excitation power, indicating a quantum confined Stark effect. Furthermore, both the blue-shift and the intensity of the emission saturate with increasing excitation power. The temperature-dependence of the 3.26eV emission line has also been investigated. © 2010 IOP Publishing Ltd.

Cavity Enhancement of single quantum dot emission in the blue

Nanoscale Research Letters 5:3 (2010) 608-612

Authors:

RA Taylor, AF Jarjour, DP Collins, MJ Holmes, RA Oliver, MJ Kappers, CJ Humphreys

Abstract:

Cavity-enhanced single-photon emission in the blue spectral region was measured from single InGaN/GaN quantum dots. The low-Q microcavities used were characterized using micro-reflectance spectroscopy where the source was the enhanced blue output from a photonic crystal fibre. Micro-photoluminescence was observed from several cavities and found to be ~10 times stronger than typical InGaN quantum dot emission without a cavity. The measurements were performed using non-linear excitation spectroscopy in order to suppress the background emission from the underlying wetting layer. © The Author(s) 2009.

Photoluminescence and electroluminescence in InGaN/GaN nano-rod array LEDs fabricated on a wafer scale

Optics InfoBase Conference Papers (2010)

Authors:

PA Shields, C Chan, N Read, DWE Allsopp, RA Taylor

Abstract:

The fabrication of nano-rods containing InGaN/GaN quantum wells with diameter and the evolution of their optical properties are reported. A prototype nano-rod array LED device with strong photonic crystal effects in its electroluminescence is demonstrated. © OSA / ANIC/SOLED 2010.

Cavity Enhancement of Single Quantum Dot Emission in the Blue

NANOSCALE RESEARCH LETTERS 5:3 (2010) 608-612

Authors:

Robert A Taylor, Anas F Jarjour, Daniel P Collins, Mark J Holmes, Rachel A Oliver, Menno J Kappers, Colin J Humphreys

Cavity modes of tapered ZnO nanowires

NEW JOURNAL OF PHYSICS 12 (2010) ARTN 083052

Authors:

Xiulai Xu, Frederic SF Brossard, David A Williams, Daniel P Collins, Mark J Holmes, Robert A Taylor, Xitian Zhang