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Bio
During my PhD in Brussels, I have focused on the study of the dynamics of passive nonlinear optical fibre resonators, investigating optical bistability, period-doubling instabilities and optical chaos, and several regimes of intracavity modulation instabilities. This has led to the demonstration of a continuous-wave ultrahigh repetition rate laser source based on modulation instability and operating at more than 100GHz. The structural simplicity of passive optical fibre cavities has also been used to investigate more fundamental nonlinear dynamics such as a competition between a dispersive and a convective transport mechanism. This latter aspect has been dramatically illustrated by the experimental demonstration of the inhibition of optical bistability in synchronously pumped nonlinear cavities in presence of a cavity synchronisation mismatch smaller than 1% of the pump pulse width.
For my post-doctoral stay in Auckland, I worked on supercontinuum generation, a process where a single frequency laser beam is converted into a white light continuum containing light spanning two octaves in frequency (ie, a laser rainbow extending from the ultra-violet well into the infra-red). Particular interest has been paid to the study of the various mechanisms underlying the spectral broadening through experiments and numerical simulations. I have also been investigating the coherence and noise properties of these light sources, both under pulsed and continuous-wave pumping conditions. This work led to a review paper published in 2006 in Reviews of Modern Physics.
For my post-doctoral stay in Auckland, I worked on supercontinuum generation, a process where a single frequency laser beam is converted into a white light continuum containing light spanning two octaves in frequency (ie, a laser rainbow extending from the ultra-violet well into the infra-red). Particular interest has been paid to the study of the various mechanisms underlying the spectral broadening through experiments and numerical simulations. I have also been investigating the coherence and noise properties of these light sources, both under pulsed and continuous-wave pumping conditions. This work led to a review paper published in 2006 in Reviews of Modern Physics.
Research Interests
Papers共 257 篇Author StatisticsCo-AuthorSimilar Experts
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Nature Communicationsno. 1 (2024): 1-11
Nature Photonicsno. 1 (2024): 46-53
Optical Fiber Technology (2024): 103857
OPTICS COMMUNICATIONS (2023): 129810-129810
Liam J. Quinn,Gang Xu,Yiqing Xu,Zongda Li, Julien Fatome,Stuart Murdoch,Miro Erkintalo,Stéphane Coen
AI and Optical Data Sciences IV (2023)
Optics expressno. 4 (2023): 5475-5482
Optics lettersno. 15 (2023): 4097-4100
Liam Quinn,Gang Xu,Yiqing Xu,Zongda Li, Julien Fatome,Stuart G. Murdoch,Stéphane Coen,Miro Erkintalo
Optics Lettersno. 14 (2023): 3741-3741
2023 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC)pp.1-1, (2023)
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