Justin Norman
Justin Norman
Quintessent, Inc.
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Cited by
Cited by
High performance continuous wave 1.3 μm quantum dot lasers on silicon
AY Liu, C Zhang, J Norman, A Snyder, D Lubyshev, JM Fastenau, ...
Applied Physics Letters 104 (4), 2014
Perspective: The future of quantum dot photonic integrated circuits
JC Norman, D Jung, Y Wan, JE Bowers
APL photonics 3 (3), 2018
Quantum dot lasers for silicon photonics
AY Liu, S Srinivasan, J Norman, AC Gossard, JE Bowers
Photonics Research 3 (5), B1-B9, 2015
Observation of the unconventional photon blockade
HJ Snijders, JA Frey, J Norman, H Flayac, V Savona, AC Gossard, ...
Physical review letters 121 (4), 043601, 2018
A review of high-performance quantum dot lasers on silicon
JC Norman, D Jung, Z Zhang, Y Wan, S Liu, C Shang, RW Herrick, ...
IEEE Journal of Quantum Electronics 55 (2), 1-11, 2019
1.3 μm submilliamp threshold quantum dot micro-lasers on Si
Y Wan, J Norman, Q Li, MJ Kennedy, D Liang, C Zhang, D Huang, ...
Optica 4 (8), 940-944, 2017
Electrically pumped continuous-wave 1.3 μm quantum-dot lasers epitaxially grown on on-axis (001) GaP/Si
AY Liu, J Peters, X Huang, D Jung, J Norman, ML Lee, AC Gossard, ...
Optics letters 42 (2), 338-341, 2017
High-channel-count 20 GHz passively mode-locked quantum dot laser directly grown on Si with 4.1 Tbit/s transmission capacity
S Liu, X Wu, D Jung, JC Norman, MJ Kennedy, HK Tsang, AC Gossard, ...
Optica 6 (2), 128-134, 2019
Impact of threading dislocation density on the lifetime of InAs quantum dot lasers on Si
D Jung, R Herrick, J Norman, K Turnlund, C Jan, K Feng, AC Gossard, ...
Applied Physics Letters 112 (15), 2018
High efficiency low threshold current 1.3 μm InAs quantum dot lasers on on-axis (001) GaP/Si
D Jung, J Norman, MJ Kennedy, C Shang, B Shin, Y Wan, AC Gossard, ...
Applied Physics Letters 111 (12), 2017
Highly reliable low-threshold InAs quantum dot lasers on on-axis (001) Si with 87% injection efficiency
D Jung, Z Zhang, J Norman, R Herrick, MJ Kennedy, P Patel, K Turnlund, ...
ACS photonics 5 (3), 1094-1100, 2017
Electrically pumped continuous wave quantum dot lasers epitaxially grown on patterned, on-axis (001) Si
J Norman, MJ Kennedy, J Selvidge, Q Li, Y Wan, AY Liu, PG Callahan, ...
Optics Express 25 (4), 3927-3934, 2017
1.3- m Reflection Insensitive InAs/GaAs Quantum Dot Lasers Directly Grown on Silicon
J Duan, H Huang, B Dong, D Jung, JC Norman, JE Bowers, F Grillot
IEEE Photonics Technology Letters 31 (5), 345-348, 2019
Monolithically integrated InAs/InGaAs quantum dot photodetectors on silicon substrates
Y Wan, Z Zhang, R Chao, J Norman, D Jung, C Shang, Q Li, MJ Kennedy, ...
Optics express 25 (22), 27715-27723, 2017
Ultrabright Entangled-Photon-Pair Generation from an -On-Insulator Microring Resonator
TJ Steiner, JE Castro, L Chang, Q Dang, W Xie, J Norman, JE Bowers, ...
PRX Quantum 2 (1), 010337, 2021
1550-nm driven ErAs: In (Al) GaAs photoconductor-based terahertz time domain system with 6.5 THz bandwidth
U Nandi, JC Norman, AC Gossard, H Lu, S Preu
Journal of Infrared, Millimeter, and Terahertz Waves 39, 340-348, 2018
Semiconductor quantum dot lasers epitaxially grown on silicon with low linewidth enhancement factor
J Duan, H Huang, D Jung, Z Zhang, J Norman, JE Bowers, F Grillot
Applied Physics Letters 112 (25), 2018
Directly modulated quantum dot lasers on silicon with a milliampere threshold and high temperature stability
Y Wan, D Inoue, D Jung, JC Norman, C Shang, AC Gossard, JE Bowers
Photonics Research 6 (8), 776-781, 2018
A Pathway to Thin GaAs Virtual Substrate on On‐Axis Si (001) with Ultralow Threading Dislocation Density
C Shang, J Selvidge, E Hughes, JC Norman, AA Taylor, AC Gossard, ...
physica status solidi (a) 218 (3), 2000402, 2021
Analysis of the optical feedback dynamics in InAs/GaAs quantum dot lasers directly grown on silicon
H Huang, J Duan, D Jung, AY Liu, Z Zhang, J Norman, JE Bowers, ...
JOSA B 35 (11), 2780-2787, 2018
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