Timothy Davis
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Phase-contrast imaging of weakly absorbing materials using hard X-rays
TJ Davis, D Gao, TE Gureyev, AW Stevenson, SW Wilkins
Nature 373 (6515), 595-598, 1995
Surface plasmon mediated strong exciton− photon coupling in semiconductor nanocrystals
DE Gomez, KC Vernon, P Mulvaney, TJ Davis
Nano letters 10 (1), 274-278, 2010
X-ray phase-contrast microscopy and microtomography
SC Mayo, TJ Davis, TE Gureyev, PR Miller, D Paganin, A Pogany, ...
Optics express 11 (19), 2289-2302, 2003
Quantitative X‐ray projection microscopy: phase‐contrast and multi‐spectral imaging
SC Mayo, PR Miller, SW Wilkins, TJ Davis, D Gao, TE Gureyev, ...
Journal of microscopy 207 (2), 79-96, 2002
Hot carrier extraction with plasmonic broadband absorbers
C Ng, JJ Cadusch, S Dligatch, A Roberts, TJ Davis, P Mulvaney, ...
ACS nano 10 (4), 4704-4711, 2016
The dark side of plasmonics
DE Gómez, ZQ Teo, M Altissimo, TJ Davis, S Earl, A Roberts
Nano letters 13 (8), 3722-3728, 2013
Influence of particle− substrate interaction on localized plasmon resonances
KC Vernon, AM Funston, C Novo, DE Gómez, P Mulvaney, TJ Davis
Nano letters 10 (6), 2080-2086, 2010
Chiral electromagnetic fields generated by arrays of nanoslits
E Hendry, RV Mikhaylovskiy, LD Barron, M Kadodwala, TJ Davis
Nano letters 12 (7), 3640-3644, 2012
A hand-held surface plasmon resonance biosensor for the detection of ricin and other biological agents
BN Feltis, BA Sexton, FL Glenn, MJ Best, M Wilkins, TJ Davis
Biosensors and Bioelectronics 23 (7), 1131-1136, 2008
X-ray image contrast from a simple phase object
TJ Davis, TE Gureyev, D Gao, AW Stevenson, SW Wilkins
Physical review letters 74 (16), 3173, 1995
Plasmonic circuits for manipulating optical information
TJ Davis, DE Gómez, A Roberts
Nanophotonics 6 (3), 543-559, 2017
Ultrafast vector imaging of plasmonic skyrmion dynamics with deep subwavelength resolution
TJ Davis, D Janoschka, P Dreher, B Frank, FJ Meyer zu Heringdorf, ...
Science 368 (6489), eaba6415, 2020
Simple model for the hybridization of surface plasmon resonances in metallic nanoparticles
TJ Davis, DE Gómez, KC Vernon
Nano letters 10 (7), 2618-2625, 2010
Superchiral electromagnetic fields created by surface plasmons in nonchiral metallic nanostructures
TJ Davis, E Hendry
Physical Review B—Condensed Matter and Materials Physics 87 (8), 085405, 2013
Designing plasmonic systems using optical coupling between nanoparticles
TJ Davis, KC Vernon, DE Gómez
Physical Review B—Condensed Matter and Materials Physics 79 (15), 155423, 2009
Optical phase retrieval by use of first Born-and Rytov-type approximations
TE Gureyev, TJ Davis, A Pogany, SC Mayo, SW Wilkins
Applied optics 43 (12), 2418-2430, 2004
Short-range surface plasmonics: Localized electron emission dynamics from a 60-nm spot on an atomically flat single-crystalline gold surface
B Frank, P Kahl, D Podbiel, G Spektor, M Orenstein, L Fu, T Weiss, ...
Science Advances 3 (7), e1700721, 2017
Characterisation of gold surface plasmon resonance sensor substrates
BA Sexton, BN Feltis, TJ Davis
Sensors and Actuators A: Physical 141 (2), 471-475, 2008
Tunable optical antennas enabled by the phase transition in vanadium dioxide
SK Earl, TD James, TJ Davis, JC McCallum, RE Marvel, RF Haglund, ...
Optics express 21 (22), 27503-27508, 2013
Photoinduced electron transfer in the strong coupling regime: waveguide–plasmon polaritons
P Zeng, J Cadusch, D Chakraborty, TA Smith, A Roberts, JE Sader, ...
Nano Letters 16 (4), 2651-2656, 2016
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