Diversity of Spontaneous Neoplasms in Commonly Used Inbred Strains and Stocks of Laboratory Mice

The negatively-charged nitrogen vacancy (NV−) center in diamond is of great interest for quantum information processing and quantum key distribution applications due to its highly desirable long coherence times at room temperature. One of the challenges for their use in these applications involves the requirement to further optimize the lifetime and emission properties of the centers. Our results demonstrate the reduction of the lifetime of NV− centers, and hence an increase in the emission rate, achieved by modifying the refractive index of the environment surrounding the nanodiamond (ND). By coating the NDs in a polymer film, experimental results and numerical calculations show an average of 63% reduction in the lifetime and an average enhancement in the emission rate by a factor of 1.6. This strategy is also applicable for emitters other than diamond color centers where the particle refractive index is greater than the refractive index of the surrounding media.

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Broadband and robust optical waveguide devices using coherent tunnelling adiabatic passage

Chung¹,

Karle²,

Rab³

et al. 2012

Opt. Express

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We numerically demonstrate an optical waveguide structure for the coherent tunnelling adiabatic passage of photons. An alternative coupling scheme is used compared to earlier work. We show that a three rib optical waveguide structure is robust to material loss in the intermediate waveguide and variations to the waveguide parameters. We also present a five rib optical waveguide structure that represents a new class of octave spanning power divider.

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Room-temperature single-photon emission from zinc oxide nanoparticle defects and their in vitro photostable intrinsic fluorescence

Chung

Karle

Khalid

et al. 2016

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Zinc oxide (ZnO) is a promising semiconductor that is suitable for bioimaging applications due to its intrinsic defect fluorescence. However, ZnO generally suffers from poor photostability. We report room-temperature single-photon emission from optical defects found in ZnO nanoparticles (NPs) formed by ion implantation followed by thermal oxidation in a silica substrate. We conduct a thorough investigation into the photophysics of a particularly bright defect and identify other single emitters within the NPs. Photostability was observed when the NPs were removed from the growth substrate and taken up by skin cells for in vitro imaging.

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Emission Properties of Fluorescent Nanoparticles Determined by Their Optical Environment

Chung

Tomljenovic‐Hanic

2015

Nanomaterials

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Hybrid nanodiamond and titanium dioxide nanobeam cavity design

Chung

Karle

Wang

et al. 2017

Opt. Mater. Express

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Room-temperature single-photon emitters in titanium dioxide optical defects

Chung¹,

Leung

et al. 2018

Beilstein J. Nanotechnol.

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Fluorescence properties of crystallographic point defects within different morphologies of titanium dioxide were investigated. For the first time, room-temperature single-photon emission in titanium dioxide optical defects was discovered in thin films and commercial nanoparticles. Three-level defects were identified because the g (2) correlation data featured prominent shoulders around the antibunching dip. Stable and blinking photodynamics were observed for the single-photon emitters. These results reveal a new room-temperature single-photon source within a wide bandgap semiconductor.

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Geodec: Enabling Geospatial Decision Making

Shahabi

Chiang

Chung

et al. 2006

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The rapid increase in the availability of geospatial data has motivated the effort to seamlessly integrate this information into an information-rich and realistic 3D environment. However, heterogeneous data sources with varying degrees of consistency and accuracy pose a challenge to such efforts. We describe the Geospatial Decision Making (GeoDec) system, which accurately integrates satellite imagery, three-dimensional models, textures and video streams, road data, maps, point data and temporal data. The system also includes a glove-based user interface.

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High-Q Defect-Free 2D Photonic Crystal Cavity from Random Localised Disorder

et al. 2014

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Abstract:We propose a high-Q photonic crystal cavity formed by introducing random disorder to the central region of an otherwise defect-free photonic crystal slab (PhC). Three-dimensional finite-difference time-domain simulations determine the frequency, quality factor, Q, and modal volume, V, of the localized modes formed by the disorder. Relatively large Purcell factors of 500-800 are calculated for these cavities, which can be achieved for a large range of degrees of disorders.

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Kelvin Chung

Lifetime Reduction and Enhanced Emission of Single Photon Color Centers in Nanodiamond via Surrounding Refractive Index Modification

Broadband and robust optical waveguide devices using coherent tunnelling adiabatic passage

Room-temperature single-photon emission from zinc oxide nanoparticle defects and their in vitro photostable intrinsic fluorescence

Emission Properties of Fluorescent Nanoparticles Determined by Their Optical Environment

Hybrid nanodiamond and titanium dioxide nanobeam cavity design

Room-temperature single-photon emitters in titanium dioxide optical defects

Geodec: Enabling Geospatial Decision Making

High-Q Defect-Free 2D Photonic Crystal Cavity from Random Localised Disorder

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