Folgen
Stephen Hughes
Stephen Hughes
Professor of Physics, Queen's University, Canada
Bestätigte E-Mail-Adresse bei queensu.ca - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Extrinsic Optical Scattering Loss in Photonic Crystal Waveguides: Role of Fabrication Disorder and Photon Group Velocity
S Hughes, L Ramunno, JF Young, JE Sipe
Physical review letters 94 (3), 033903, 2005
6232005
Disorder-induced scattering loss of line-defect waveguides in photonic crystal slabs
E Kuramochi, M Notomi, S Hughes, A Shinya, T Watanabe, L Ramunno
Physical Review B—Condensed Matter and Materials Physics 72 (16), 161318, 2005
3342005
Single quantum-dot Purcell factor and factor in a photonic crystal waveguide
VSC Manga Rao, S Hughes
Physical Review B—Condensed Matter and Materials Physics 75 (20), 205437, 2007
3172007
Modes and mode volumes of leaky optical cavities and plasmonic nanoresonators
PT Kristensen, S Hughes
ACS Photonics 1 (1), 2-10, 2014
3102014
Breakdown of the area theorem: carrier-wave Rabi flopping of femtosecond optical pulses
S Hughes
Physical review letters 81 (16), 3363, 1998
3011998
Generalized effective mode volume for leaky optical cavities
PT Kristensen, C Van Vlack, S Hughes
Optics letters 37 (10), 1649-1651, 2012
2712012
Polarization engineering in photonic crystal waveguides for spin-photon entanglers
AB Young, ACT Thijssen, DM Beggs, P Androvitsaneas, L Kuipers, ...
Physical review letters 115 (15), 153901, 2015
2172015
Single quantum dot spontaneous emission in a finite-size photonic crystal waveguide: proposal for an efficient “on chip” single photon gun
VSCM Rao, S Hughes
Physical review letters 99 (19), 193901, 2007
2082007
Phonon-Dressed Mollow Triplet in the Regime of Cavity Quantum Electrodynamics: Excitation-Induced Dephasing and Nonperturbative Cavity Feeding Effects
C Roy, S Hughes
Physical review letters 106 (24), 247403, 2011
2072011
Spontaneous emission spectra and quantum light-matter interactions from a strongly coupled quantum dot metal-nanoparticle system
C Van Vlack, PT Kristensen, S Hughes
Physical Review B—Condensed Matter and Materials Physics 85 (7), 075303, 2012
2012012
Quantization of quasinormal modes for open cavities and plasmonic cavity quantum electrodynamics
S Franke, S Hughes, MK Dezfouli, PT Kristensen, K Busch, A Knorr, ...
Physical review letters 122 (21), 213901, 2019
1982019
On‐chip single photon sources using planar photonic crystals and single quantum dots
P Yao, VSC Manga Rao, S Hughes
Laser & Photonics Reviews 4 (4), 499-516, 2010
1812010
Disorder-induced coherent scattering in slow-light photonic crystal waveguides
M Patterson, S Hughes, S Combrié, NVQ Tran, A De Rossi, R Gabet, ...
Physical review letters 102 (25), 253903, 2009
1762009
Influence of electron–acoustic-phonon scattering on intensity power broadening in a coherently driven quantum-dot–cavity system
C Roy, S Hughes
Physical Review X 1 (2), 021009, 2011
1652011
Enhanced single-photon emission from quantum dots in photonic crystal waveguides and nanocavities
S Hughes
Optics letters 29 (22), 2659-2661, 2004
1472004
Normalization of quasinormal modes in leaky optical cavities and plasmonic resonators
PT Kristensen, RC Ge, S Hughes
Physical Review A 92 (5), 053810, 2015
1462015
Ultrahigh Purcell factors and Lamb shifts in slow-light metamaterial waveguides
P Yao, C Van Vlack, A Reza, M Patterson, MM Dignam, S Hughes
Physical Review B—Condensed Matter and Materials Physics 80 (19), 195106, 2009
1392009
Quasinormal mode approach to modelling light-emission and propagation in nanoplasmonics
RC Ge, PT Kristensen, JF Young, S Hughes
New Journal of Physics 16 (11), 113048, 2014
1332014
Influence of electron-acoustic phonon scattering on off-resonant cavity feeding within a strongly coupled quantum-dot cavity system
S Hughes, P Yao, F Milde, A Knorr, D Dalacu, K Mnaymneh, V Sazonova, ...
Physical Review B—Condensed Matter and Materials Physics 83 (16), 165313, 2011
1202011
Coupled-cavity QED using planar photonic crystals
S Hughes
Physical review letters 98 (8), 083603, 2007
1062007
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20