Huiyun Liu
Huiyun Liu
Professor of Semiconductor Photonics, University College London
Verified email at - Homepage
Cited by
Cited by
Electrically pumped continuous-wave III–V quantum dot lasers on silicon
S Chen, W Li, J Wu, Q Jiang, M Tang, S Shutts, SN Elliott, A Sobiesierski, ...
Nature Photonics 10 (5), 307-311, 2016
Long-wavelength InAs/GaAs quantum-dot laser diode monolithically grown on Ge substrate
H Liu, T Wang, Q Jiang, R Hogg, F Tutu, F Pozzi, A Seeds
Nature Photonics 5 (7), 416-419, 2011
Improved performance of multilayer quantum-dot lasers using a high-growth-temperature spacer layer
HY Liu, IR Sellers, TJ Badcock, DJ Mowbray, MS Skolnick, KM Groom, ...
Applied Physics Letters 85 (5), 704-706, 2004
1.3-μm InAs/GaAs quantum-dot lasers monolithically grown on Si substrates
T Wang, H Liu, A Lee, F Pozzi, A Seeds
Optics express 19 (12), 11381-11386, 2011
Long lifetimes of quantum-dot intersublevel transitions in the terahertz range
EA Zibik, T Grange, BA Carpenter, NE Porter, R Ferreira, G Bastard, ...
Nature materials 8 (10), 803-807, 2009
Surface-passivated GaAsP single-nanowire solar cells exceeding 10% efficiency grown on silicon
JV Holm, HI Jřrgensen, P Krogstrup, J Nygĺrd, H Liu, M Aagesen
Nature communications 4 (1), 1-5, 2013
Optimizing the growth of 1.3 μm InAs/InGaAs dots-in-a-well structure
HY Liu, M Hopkinson, CN Harrison, MJ Steer, R Frith, IR Sellers, ...
Journal of applied physics 93 (5), 2931-2936, 2003
Nuclear spin switch in semiconductor quantum dots
AI Tartakovskii, T Wright, A Russell, VI Fal’Ko, AB Van’kov, ...
Physical review letters 98 (2), 026806, 2007
Quantum dot optoelectronic devices: lasers, photodetectors and solar cells
J Wu, S Chen, A Seeds, H Liu
Journal of Physics D: Applied Physics 48 (36), 363001, 2015
Fast optical preparation, control, and readout of a single quantum dot spin
AJ Ramsay, SJ Boyle, RS Kolodka, JBB Oliveira, J Skiba-Szymanska, ...
Physical review letters 100 (19), 197401, 2008
Continuous-wave InAs/GaAs quantum-dot laser diodes monolithically grown on Si substrate with low threshold current densities
A Lee, Q Jiang, M Tang, A Seeds, H Liu
Optics express 20 (20), 22181-22187, 2012
Long-wavelength light emission and lasing from quantum dots covered by a GaAsSb strain-reducing layer
HY Liu, MJ Steer, TJ Badcock, DJ Mowbray, MS Skolnick, P Navaretti, ...
Applied Physics Letters 86 (14), 143108, 2005
III–V nanowires and nanowire optoelectronic devices
Y Zhang, J Wu, M Aagesen, H Liu
Journal of Physics D: Applied Physics 48 (46), 463001, 2015
High-performance three-layer 1.3-μm InAs-GaAs quantum-dot lasers with very low continuous-wave room-temperature threshold currents
HY Liu, DT Childs, TJ Badcock, KM Groom, IR Sellers, M Hopkinson, ...
IEEE photonics technology letters 17 (6), 1139-1141, 2005
1.3 µm InAs/GaAs multilayer quantum-dot laser with extremely low room-temperature threshold current density
IR Sellers, HY Liu, KM Groom, DT Childs, D Robbins, TJ Badcock, ...
Electronics Letters 40 (22), 1412-1413, 2004
Mode structure of the photonic crystal cavity
ARA Chalcraft, S Lam, D O’Brien, TF Krauss, M Sahin, D Szymanski, ...
Applied physics letters 90 (24), 241117, 2007
1.3-μm InAs/GaAs quantum-dot lasers monolithically grown on Si substrates using InAlAs/GaAs dislocation filter layers
M Tang, S Chen, J Wu, Q Jiang, VG Dorogan, M Benamara, YI Mazur, ...
Optics express 22 (10), 11528-11535, 2014
Room-temperature 1.6 µm light emission from InAs/GaAs quantum dots with a thin GaAsSb cap layer
HY Liu, MJ Steer, TJ Badcock, DJ Mowbray, MS Skolnick, F Suárez, ...
Journal of applied physics 99, 046104, 2006
p-doped 1.3 μmInAs∕ GaAs quantum-dot laser with a low threshold current density and high differential efficiency
HY Liu, SL Liew, T Badcock, DJ Mowbray, MS Skolnick, SK Ray, TL Choi, ...
Applied physics letters 89 (7), 073113, 2006
Influences of the spacer layer growth temperature on multilayer quantum dot structures
HY Liu, IR Sellers, M Gutierrez, KM Groom, WM Soong, M Hopkinson, ...
Journal of applied physics 96 (4), 1988-1992, 2004
The system can't perform the operation now. Try again later.
Articles 1–20