Quantum Optoelectronics

Exciton-Polaritons in Uniaxially Aligned Organic Microcavities

(2019)

Authors:

F Le Roux, RA Taylor, DDC Bradley

III-V compounds as single photon emitters

Journal of Semiconductors IOP Publishing 40:7 (2019) 071906

Authors:

Xu Wang, Lei Xu, Zhouyang Yin, Christopher Chan, Chaoyong Deng, Robert Taylor

Mitigating the photocurrent persistence of single ZnO nanowires for low noise photodetection applications

(2019)

Authors:

J ph Girard, L Giraudet, S Kostcheev, B Bercu, TJ Puchtler, RA Taylor, C Couteau

Emergence of correlated proton tunnelling in water ice

Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences Royal Society 475:2225 (2019) 20180867

Authors:

O Pusuluk, T Farrow, C Deliduman, Vlatko Vedral

Abstract:

Several experimental and theoretical studies report instances of concerted or correlated multiple proton tunnelling in solid phases of water. Here, we construct a pseudo-spin model for the quantum motion of protons in a hexameric H2O ring and extend it to open system dynamics that takes environmental effects into account in the form of O-H stretch vibrations. We approach the problem of correlations in tunnelling using quantum information theory in a departure from previous studies. Our formalism enables us to quantify the coherent proton mobility around the hexagonal ring by one of the principal measures of coherence, the l 1 norm of coherence. The nature of the pairwise pseudo-spin correlations underlying the overall mobility is further investigated within this formalism. We show that the classical correlations of the individual quantum tunnelling events in long-time limit is sufficient to capture the behaviour of coherent proton mobility observed in low-temperature experiments. We conclude that long-range intra-ring interactions do not appear to be a necessary condition for correlated proton tunnelling in water ice.

Unravelling the key role of surface features behind facet-dependent photocatalysis of anatase TiO2

Chemical Communications Royal Society of Chemistry 55:30 (2019) 4415-4418

Authors:

Y-K Peng, B Keeling, Yiyang Li, Jianwei Zheng, Tianyi Chen, H-L Chou, TJ Puchtler, Robert Taylor, Shik Tsang

Abstract:

The high activity of nanocrystallites is commonly attributed to the terminal high-energy facets. However, we demonstrate that the high activity of the anatase TiO2(001) facet in photocatalytic H2 evolution is not due to its high intrinsic surface energy, but local electronic effects created by surface features on the facet.