The scientist’s investigation covers issues in Optics, Photonic-crystal fiber, Optical fiber, Supercontinuum and Optoelectronics. The concepts of his Optics study are interwoven with issues in Instability and Rogue wave. The Photonic-crystal fiber study combines topics in areas such as Nonlinear optics and Modulational instability.
His Optical fiber research is multidisciplinary, incorporating elements of Refractive index, Dispersion, Core and Photonic crystal. His Supercontinuum research includes elements of Raman scattering, Visible spectrum, Bandwidth, Doppler broadening and Fiber laser. His research in Optoelectronics intersects with topics in Fiber and Cross-phase modulation.
His main research concerns Optics, Optical fiber, Dispersion, Photonic-crystal fiber and Optoelectronics. His studies deal with areas such as Instability and Modulation as well as Optics. His studies in Optical fiber integrate themes in fields like Wavelength, Raman scattering, Soliton, Nonlinear optics and Computer simulation.
In his work, Pulse is strongly intertwined with Fiber, which is a subfield of Dispersion. He combines subjects such as Plastic optical fiber, Microstructured optical fiber, Mode volume and Photonic crystal with his study of Photonic-crystal fiber. His work deals with themes such as Optical pumping and Laser, which intersect with Optoelectronics.
Arnaud Mussot focuses on Optics, Optical fiber, Dispersion, Modulation and Nonlinear system. His Optics study combines topics from a wide range of disciplines, such as Parametric instability, Compensation and Computer simulation. He has researched Optical fiber in several fields, including Fermi Gamma-ray Space Telescope, Phase, Heterodyne and Optical amplifier.
His Dispersion research includes themes of Wavelength, Optoelectronics, Resonator, Pulse and Mechanics. His Modulation study incorporates themes from Nonlinear optics, Boundary value problem and Core. His study in Nonlinear system is interdisciplinary in nature, drawing from both Perturbation and Instability.
His scientific interests lie mostly in Optics, Dispersion, Optical fiber, Phase and Modulation. His biological study spans a wide range of topics, including Wind wave and Complex dynamics. His Dispersion research incorporates elements of Computational physics, Pulse, Frequency comb and Optoelectronics, Resonator.
His research in Optoelectronics tackles topics such as Laser which are related to areas like Dissipative soliton. His Optical fiber study integrates concerns from other disciplines, such as Soliton, Mechanics, Computer simulation and Optical amplifier. He has included themes like Core, Multi-mode optical fiber, Nonlinear optics, Parametric instability and Light propagation in his Modulation study.
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Microstructured optical fibre having a large core and a flattened fundamental mode, production method thereof and use of same in laser microfabrication
Emmanuel Hugonnot;Laure Lago;Arnaud Mussot;Yves Quiquempois.
Roadmap on optical rogue waves and extreme events
Nail Akhmediev;Bertrand Kibler;Fabio Baronio;Milivoj Belic.
Journal of Optics (2016)
Real-time full bandwidth measurement of spectral noise in supercontinuum generation.
Benjamin Wetzel;Alessio Stefani;Laurent Larger;Pierre-Ambroise Lacourt.
Scientific Reports (2012)
Observation of extreme temporal events in CW-pumped supercontinuum
A Mussot;A Kudlinski;M Kolobov;E Louvergneaux.
Optics Express (2009)
Spectral broadening of a partially coherent CW laser beam in single-mode optical fibers
Arnaud Mussot;E. Lantz;H. Maillotte;T. Sylvestre.
Optics Express (2004)
Generation of a broadband single-mode supercontinuum in a conventional dispersion-shifted fiber by use of a subnanosecond microchip laser.
Arnaud Mussot;Thibaut Sylvestre;Laurent Provino;Hervé Maillotte.
Optics Letters (2003)
Third-order dispersion for generating optical rogue solitons
M. Taki;A. Mussot;A. Kudlinski;E. Louvergneaux.
Physics Letters A (2010)
Real time noise and wavelength correlations in octave-spanning supercontinuum generation
Thomas Godin;Benjamin Wetzel;Thibaut Sylvestre;Laurent Larger.
Optics Express (2013)
Phononic band-gap guidance of acoustic modes in photonic crystal fibers
Vincent Laude;Abdelkrim Khelif;Sarah Benchabane;Mikael Wilm.
Physical Review B (2005)
Tailoring CW supercontinuum generation in microstructured fibers with two-zero dispersion wavelengths
Arnaud Mussot;Maxime Beaugeois;Mohamed Bouazaoui;Thibaut Sylvestre.
Optics Express (2007)
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