Follow
Dist. Prof. David J. Moss, Life Fellow IEEE, FOSA, FSPIE
Dist. Prof. David J. Moss, Life Fellow IEEE, FOSA, FSPIE
Director Optical Sciences Centre, Deputy Director ARC CoE COMBS, Swinburne University
Verified email at swin.edu.au - Homepage
Title
Cited by
Cited by
Year
New CMOS-compatible platforms based on silicon nitride and Hydex for nonlinear optics
DJ Moss, R Morandotti, AL Gaeta, M Lipson
Nature photonics 7 (8), 597, 2013
17762013
CMOS-compatible integrated optical hyper-parametric oscillator
L Razzari, D Duchesne, M Ferrera, R Morandotti, S Chu, BE Little, ...
Nature Photonics 4 (1), 41, 2010
10512010
On-chip generation of high-dimensional entangled quantum states and their coherent control
M Kues, C Reimer, P Roztocki, LR Cortés, S Sciara, B Wetzel, Y Zhang, ...
Nature 546 (7660), 622-626, 2017
10412017
Micro-combs: A novel generation of optical sources
A Pasquazi, M Peccianti, L Razzari, DJ Moss, S Coen, M Erkintalo, ...
Physics Reports 729, 1-81, 2018
9592018
11 TOPS photonic convolutional accelerator for optical neural networks
X Xu, M Tan, B Corcoran, J Wu, A Boes, TG Nguyen, ST Chu, BE Little, ...
Nature 589 (7840), 44-51, 2021
9252021
Phenomenological theory of optical second-and third-harmonic generation from cubic centrosymmetric crystals
JE Sipe, DJ Moss, HM Van Driel
Physical Review B 35 (3), 1129, 1987
8861987
Generation of multiphoton entangled quantum states by means of integrated frequency combs
C Reimer, M Kues, P Roztocki, B Wetzel, F Grazioso, BE Little, ST Chu, ...
Science 351 (6278), 1176-1180, 2016
7522016
Low-power continuous-wave nonlinear optics in doped silica glass integrated waveguide structures
M Ferrera, L Razzari, D Duchesne, R Morandotti, Z Yang, M Liscidini, ...
Nature photonics 2 (12), 737, 2008
7312008
Green light emission in silicon through slow-light enhanced third-harmonic generation in photonic-crystal waveguides
B Corcoran, C Monat, C Grillet, DJ Moss, BJ Eggleton, TP White, ...
Nature photonics 3 (4), 206, 2009
6612009
Quantum optical microcombs
M Kues, C Reimer, JM Lukens, WJ Munro, AM Weiner, DJ Moss, ...
Nature Photonics 13 (3), 170-179, 2019
6292019
Demonstration of a stable ultrafast laser based on a nonlinear microcavity
M Peccianti, A Pasquazi, Y Park, BE Little, ST Chu, DJ Moss, R Morandotti
Nature communications 3 (1), 1-6, 2012
621*2012
RF photonics: an optical microcombs’ perspective
J Wu, X Xu, TG Nguyen, ST Chu, BE Little, R Morandotti, A Mitchell, ...
IEEE Journal of Selected Topics in Quantum Electronics 24 (4), 1-20, 2018
5672018
Ultra-dense optical data transmission over standard fibre with a single chip source
B Corcoran, M Tan, X Xu, A Boes, J Wu, TG Nguyen, ST Chu, BE Little, ...
Nature Communications 11 (1), 2568, 2020
5442020
On-chip CMOS-compatible all-optical integrator
M Ferrera, Y Park, L Razzari, BE Little, ST Chu, R Morandotti, DJ Moss, ...
Nature communications 1 (1), 1-5, 2010
5382010
Nonlinear optics in communications: From crippling impairment to ultrafast tools
S Radic, DJ Moss, BJ Eggleton
Optical Fiber Telecommunications VA, 759-828, 2008
534*2008
High-dimensional one-way quantum processing implemented on d-level cluster states
C Reimer, S Sciara, P Roztocki, M Islam, L Romero Cortés, Y Zhang, ...
Nature Physics 15 (2), 148-153, 2019
5202019
Laser cavity-soliton microcombs
H Bao, A Cooper, M Rowley, L Di Lauro, JST Gongora, ST Chu, BE Little, ...
Nature Photonics 13 (6), 384, 2019
4952019
Photonic microwave true time delays for phased array antennas using a 49 GHz FSR integrated optical micro-comb source
X Xu, J Wu, TG Nguyen, T Moein, ST Chu, BE Little, R Morandotti, ...
Photonics Research 6 (5), B30-B36, 2018
4732018
Advanced RF and microwave functions based on an integrated optical frequency comb source
X Xu, J Wu, TG Nguyen, M Shoeiby, ST Chu, BE Little, R Morandotti, ...
Optics Express 26 (3), 2569-2583, 2018
4652018
Ultrafast all-optical chalcogenide glass photonic circuits
VG Ta’eed, NJ Baker, L Fu, K Finsterbusch, MRE Lamont, DJ Moss, ...
Optics express 15 (15), 9205-9221, 2007
4432007
The system can't perform the operation now. Try again later.
Articles 1–20