par Roelkens, Gunther;Dave, Utsav;Gassenq, Alban;Hattasan, Nannicha;Hu, Chen;Kuyken, Bart;Leo, François ;Malik, Aditya;Muneeb, Muhammad;Ryckeboer, Eva M.P.;Sanchez, Dorian;R'Ghif, Naima ;Wang, Ruijun;Hens, Zeger;Baets, Roel G. F.;Shimura, Yosuke;Gencarelli, Federica;Vincent, Benjamin;Loo, Roger;Van Campenhout, Joris;Cerutti, Laurent;Rodriguez, Jean Baptiste;Tournié, Eric;Chen, Xia;Nedeljkovic, Milos;Mashanovich, Goran Z.;Shen, Li;Healy, Noel V.;Peacock, Anna C.;Liu, Xiaoping;Osgood, Richard M J R.M.;Green, William W.M.J.
Référence IEEE journal of selected topics in quantum electronics, 20, 4, 6718100
Publication Publié, 2014
Référence IEEE journal of selected topics in quantum electronics, 20, 4, 6718100
Publication Publié, 2014
Article révisé par les pairs
Résumé : | In this paper we discuss silicon-based photonic integrated circuit technology for applications beyond the telecommunication wavelength range. Silicon-on-insulator and germanium-on-silicon passive waveguide circuits are described, as well as the integration of III-V semiconductors, IV-VI colloidal nanoparticles and GeSn alloys on these circuits for increasing the functionality. The strong nonlinearity of silicon combined with the low nonlinear absorption in the mid-infrared is exploited to generate picosecond pulse based supercontinuum sources, optical parametric oscillators and wavelength translators connecting the telecommunication wavelength range and the mid-infrared. © 1995-2012 IEEE. |