Title :
Optical delay in silicon photonic crystals using ultrafast indirect photonic transitions
Author :
Beggs, D.M. ; Rey, Isabella H. ; Kampfrath, Tobias ; Rotenberg, N. ; Kuipers, L. ; Krauss, Thomas F.
Author_Institution :
FOM Inst. AMOLF, Amsterdam, Netherlands
Abstract :
Using a silicon slow-light photonic crystal waveguide, we demonstrate the operation of a dynamic delay line based on an ultrafast indirect photonic transition to alter the group velocity of a pulse. We show continuously tuneable delays of up to 20 ps, using a waveguide just 300 μm in length. Our approach is scalable, in that both the maximum delay and capacity of the buffer are proportional to the length of the waveguide, and flexible, in that individual pulses in a pulse stream can be controlled independently, which we demonstrate by operating on pulses separated by just 30 ps.
Keywords :
elemental semiconductors; high-speed optical techniques; integrated optics; optical delay lines; optical design techniques; optical fabrication; optical waveguides; photonic crystals; silicon; slow light; Si; continuously tuneable delay; dynamic delay line; optical delay; size 300 mum; slow light photonic crystal waveguide; tuneable integrated delay line; ultrafast indirect photonic transitions; Delay lines; Delays; Dispersion; Optical waveguides; Photonic crystals; Photonics; Silicon; delay line; group velocity; indirect photonic transition; integrated; photonic crystal; slow light;
Conference_Titel :
Transparent Optical Networks (ICTON), 2013 15th International Conference on
Conference_Location :
Cartagena
DOI :
10.1109/ICTON.2013.6602916
