Title :
Distributed Bragg deflectors fabricated in sol-gel based waveguides
Author :
Davis, R.L. ; Long, W. ; Chia-Jean Wang ; Lam, Tak-Wah ; Ho, J.G. ; Nachman, P.M. ; Poylio, J. ; Mishechkin, O.V. ; Fallahi, M.
Author_Institution :
Northrop Grumman Space Technol., Redondo Beach, CA, USA
Abstract :
We report the fabrication and first demonstration of a grating-coupled waveguide device called a distributed Bragg deflector (DBD). The device consists of a grating imprinted on a channel waveguide, which is in turn, embedded in a planar guide. Light propagating in the channel waveguide is coupled to a well-collimated, planar waveguide-propagating beam at nominally a right angle to the channel. The precise angle of the planar waveguide beam (the diffracted beam) is determined by the Bragg condition for the incident wavelength. The diffracted beams complex amplitude profile can be controlled by adjusting properties of the grating. Our devices were designed for operation at around 1.55 μm. In accordance with theory, the DBDs diffraction efficiency exhibits a strong polarization dependence. Both 1- and 4-cm-long grating devices have been evaluated.
Keywords :
diffraction gratings; distributed Bragg reflectors; laser beams; optical deflectors; optical design techniques; optical fabrication; optical planar waveguides; sol-gel processing; 1.55 micron; 4 cm; channel waveguide; diffraction efficiency; diffraction gratings; distributed Bragg deflectors; grating devices; grating-coupled waveguide device; integrated optics; planar waveguide; planar waveguide-propagating beam; sol-gel based waveguides; well-collimated propagating beam; Bragg gratings; Diffraction gratings; Frequency; Optical diffraction; Optical planar waveguides; Optical refraction; Optical variables control; Optical waveguides; Planar waveguides; Semiconductor waveguides;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2003.821255
