Timothy Davis
Timothy Davis
Verified email at unimelb.edu.au
Cited by
Cited by
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
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
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
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
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
The dark side of plasmonics
DE Gómez, ZQ Teo, M Altissimo, TJ Davis, S Earl, A Roberts
Nano letters 13 (8), 3722-3728, 2013
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
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
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
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
Designing plasmonic systems using optical coupling between nanoparticles
TJ Davis, KC Vernon, DE Gómez
Physical Review B 79 (15), 155423, 2009
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
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
Superchiral electromagnetic fields created by surface plasmons in nonchiral metallic nanostructures
TJ Davis, E Hendry
Physical Review B 87 (8), 085405, 2013
Plasmonic circuits for manipulating optical information
TJ Davis, DE Gómez, A Roberts
Nanophotonics 6 (3), 543-559, 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
FRET for lab-on-a-chip devices—Current trends and future prospects
SS Varghese, Y Zhu, TJ Davis, SC Trowell
Lab on a Chip 10 (11), 1355-1364, 2010
Surface plasmon modes in multi-layer thin-films
TJ Davis
Optics Communications 282 (1), 135-140, 2009
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
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