Bart KuykenSummaryAffiliation: Ghent University Country: Belgium Publications
|
Detail Information
Publications
A silicon-based widely tunable short-wave infrared optical parametric oscillatorBart Kuyken
Photonics Research Group, Department of Information Technology, Ghent University IMEC, Ghent B 9000, Belgium
Opt Express 21:5931-40. 2013..Additionally we demonstrate broadband tuning across 150 nm by varying the pump wavelength and exploiting the higher order dispersion characteristics of the silicon photonic wire...
Nonlinear properties of and nonlinear processing in hydrogenated amorphous silicon waveguidesB Kuyken
Photonics Research Group, Department of Information Technology, Ghent University IMEC, Ghent, Belgium
Opt Express 19:B146-53. 2011..A four wave mixing conversion efficiency of + 12 dB is demonstrated in a 320 Gbit/s serial optical waveform data sampling experiment in a 4 mm long photonic nanowire...- On-chip parametric amplification with 26.5 dB gain at telecommunication wavelengths using CMOS-compatible hydrogenated amorphous silicon waveguidesBart Kuyken
INTEC department, Ghent University IMEC, Ghent, Belgium
Opt Lett 36:552-4. 2011..Broadband on/off amplification up to 26.5 dB at telecom wavelength is reported. Measured nonlinear parameter is 770 W(-) m(-1), nonlinear absorption 28 W(-1) m(-1), bandgap 1.61 eV... - Mid-infrared to telecom-band supercontinuum generation in highly nonlinear silicon-on-insulator wire waveguidesBart Kuyken
Photonics Research Group, Department of Information Technology, Ghent University IMEC, Ghent B 9000, Belgium
Opt Express 19:20172-81. 2011..A detailed analysis of the spectral components which are generated through phase-matched processes is applied to extract the group velocity dispersion and fourth-order dispersion coefficient of the silicon wire waveguide... - 50 dB parametric on-chip gain in silicon photonic wiresBart Kuyken
Opt Lett 36:4401-3. 2011....