Quantum Optoelectronics

Hyperspectral Imaging of Exciton Photoluminescence in Individual Carbon Nanotubes Controlled by High Magnetic Fields

Nano Letters American Chemical Society (ACS) 14:9 (2014) 5194-5200

Authors:

Jack A Alexander-Webber, Clement Faugeras, Piotr Kossacki, Marek Potemski, Xu Wang, Hee Dae Kim, Samuel D Stranks, Robert A Taylor, Robin J Nicholas

Low gain threshold density of a single InGaP quantum well sandwiched by digital alloy

Current Applied Physics Elsevier 14:9 (2014) 1293-1295

Authors:

B Kim, K Kyhm, KC Je, JD Song, SY Kim, EH Le, RA Taylor

Temperature dependence of the radiative recombination time in ZnO nanorods under an external magnetic field of 6T

Optics Express Optica Publishing Group 22:15 (2014) 17959-17967

Authors:

W Lee, T Kiba, A Murayama, C Sartel, V Sallet, I Kim, RA Taylor, YD Jho, K Kyhm

Scale-estimation of quantum coherent energy transport in multiple-minima systems.

Scientific reports Nature Publishing Group 4 (2014) 5520

Authors:

T Farrow, Vlatko Vedral

Abstract:

A generic and intuitive model for coherent energy transport in multiple minima systems coupled to a quantum mechanical bath is shown. Using a simple spin-boson system, we illustrate how a generic donor-acceptor system can be brought into resonance using a narrow band of vibrational modes, such that the transfer efficiency of an electron-hole pair (exciton) is made arbitrarily high. Coherent transport phenomena in nature are of renewed interest since the discovery that a photon captured by the light-harvesting complex (LHC) in photosynthetic organisms can be conveyed to a chemical reaction centre with near-perfect efficiency. Classical explanations of the transfer use stochastic diffusion to model the hopping motion of a photo-excited exciton. This accounts inadequately for the speed and efficiency of the energy transfer measured in a series of recent landmark experiments. Taking a quantum mechanical perspective can help capture the salient features of the efficient part of that transfer. To show the versatility of the model, we extend it to a multiple minima system comprising seven-sites, reminiscent of the widely studied Fenna-Matthews-Olson (FMO) light-harvesting complex. We show that an idealised transport model for multiple minima coupled to a narrow-band phonon can transport energy with arbitrarily high efficiency.

The Influence of an Optical Well in Controlling the Mode Splitting in a Photonic Molecule

Institute of Electrical and Electronics Engineers (IEEE) (2014) 1-4

Authors:

Frederic SF Brossard, Robert A Taylor, Ben PL Reid, David A Williams, Peter D Spencer, Ray Murray