Marc Sorel mostly deals with Nuclear physics, Particle physics, Neutrino, Neutrino oscillation and Optics. His Nuclear physics research integrates issues from Angular dependence, Flux ratio, Detector and Humanities. His Particle physics research focuses on subjects like Particle identification, which are linked to Antiparticle, NOνA, Tribimaximal mixing and Antimatter.
The various areas that he examines in his Neutrino study include Pion, Scattering, Lepton, Energy and Nucleon. His research in Neutrino oscillation tackles topics such as Oscillation which are related to areas like Mixing, K2K experiment and Sigma. His Optics study combines topics in areas such as Silicon and Nonlinear system.
The scientist’s investigation covers issues in Optoelectronics, Optics, Photonics, Semiconductor laser theory and Laser. His study in Silicon, Resonator, Wavelength, Silicon photonics and Silicon on insulator are all subfields of Optoelectronics. His Optics and Waveguide, Nonlinear optics, Four-wave mixing, Waveguide and Fiber Bragg grating investigations all form part of his Optics research activities.
His Photonics research includes elements of Electronic engineering and Photonic crystal. His Semiconductor laser theory study integrates concerns from other disciplines, such as Tunable laser, Bistability and Optical bistability. His study brings together the fields of Semiconductor and Laser.
Marc Sorel mainly focuses on Optoelectronics, Photonics, Wavelength, Silicon and Optics. His research on Optoelectronics frequently connects to adjacent areas such as Laser. His biological study deals with issues like Second-harmonic generation, which deal with fields such as Photon, Nonlinear system, Insulator and Quantum optics.
Marc Sorel combines subjects such as Waveguide, Polarization, Four-wave mixing and Electron-beam lithography with his study of Wavelength. His study looks at the relationship between Silicon and topics such as Transfer printing, which overlap with Electronic circuit. His study on Optics is mostly dedicated to connecting different topics, such as Angular momentum.
His scientific interests lie mostly in Optics, Photonics, Optoelectronics, Wavelength and Silicon. His work carried out in the field of Optics brings together such families of science as Electron-beam lithography and Angular momentum. In general Photonics, his work in Silicon photonics is often linked to Light detection and Rapid prototyping linking many areas of study.
Marc Sorel interconnects Quantum and Resonant cavity in the investigation of issues within Optoelectronics. His biological study spans a wide range of topics, including Nonlinear optics, Laser, Polarization and Chemical vapor deposition. In his study, Waveguide, Transformation optics, Optical pumping, Finesse and Waveguide is strongly linked to Photonic integrated circuit, which falls under the umbrella field of Silicon.
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Anderson localization and nonlinearity in one-dimensional disordered photonic lattices.
Yoav Lahini;Assaf Avidan;Francesca Pozzi;Marc Sorel.
Physical Review Letters (2008)
Integrated Compact Optical Vortex Beam Emitters
Xinlun Cai;Jianwei Wang;Michael J. Strain;Benjamin Johnson-Morris.
Realization of quantum walks with negligible decoherence in waveguide lattices.
Hagai B. Perets;Yoav Lahini;Francesca Pozzi;Marc Sorel.
Physical Review Letters (2008)
Observation of a localization transition in quasiperiodic photonic lattices.
Y. Lahini;R. Pugatch;F. Pozzi;M. Sorel.
Physical Review Letters (2009)
Observation of discrete surface solitons.
S. Suntsov;K. G. Makris;D. N. Christodoulides;G. I. Stegeman.
Physical Review Letters (2006)
Self-Focusing and Defocusing in Waveguide Arrays
R. Morandotti;H. S. Eisenberg;Y. Silberberg;M. Sorel.
Physical Review Letters (2001)
Operating regimes of GaAs-AlGaAs semiconductor ring lasers: experiment and model
M. Sorel;G. Giuliani;A. Scire;R. Miglierina.
IEEE Journal of Quantum Electronics (2003)
Fabrication of low-loss photonic wires in silicon-on-insulator using hydrogen silsesquioxane electron-beam resist
M. Gnan;S. Thoms;D.S. Macintyre;R.M. De La Rue.
Electronics Letters (2008)
Micrometer-scale integrated silicon source of time-energy entangled photons
Davide Grassani;Stefano Azzini;Marco Liscidini;Matteo Galli.
Optica Applicata (2015)
Qubit entanglement between ring-resonator photon-pair sources on a silicon chip
Joshua W. Silverstone;Raffaele Santagati;Damien Bonneau;Michael J. Strain.
Nature Communications (2015)
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