Title :
Silicon-on-insulator slot-waveguide design trade-offs
Author :
Patrick Steglich;Claus Villringer;Silvio Dümecke;Yazmin Padilla Michel;Mauro Casalboni;Sigurd Schrader
Author_Institution :
Faculty of Engineering and Natural Sciences, University of Applied Sciences Wildau, Germany
fDate :
3/1/2015 12:00:00 AM
Abstract :
Silicon-on-insulator slot-waveguide structures are designed and analysed numerically. We present our theoretical investigation of field confinement factors and effective nonlinear areas for different waveguide structures in order to find optimized geometrical dimensions. It is shown that a slot-waveguide with a height of 220 nm, a slot width of 180 nm and a silicon rail width of 180 nm provides a five times higher field confinement in the cladding region compared to conventional strip-waveguides which explains the high sensitivity of slot-waveguide based label-free bio-sensors.
Keywords :
"Rails","Silicon","Electrooptical waveguides","Biomedical optical imaging","Organic materials","Integrated optics"
Conference_Titel :
Photonics, Optics and Laser Technology (PHOTOPTICS), 2015 International Conference on
