Title :
Birefringence compensation applying double-core waveguiding structures
Author :
Wörhoff, K. ; Offrein, B.J. ; Lambeck, P.V. ; Bona, G.L. ; Driessen, A.
Author_Institution :
MESA Res. Inst., Twente Univ., Enschede, Netherlands
Abstract :
For application in communication networks, polarization-independent planar optical waveguiding structures are essential, because the polarization state of the optical signal in an optical network is arbitrary. A new concept for polarization-independent waveguides simply adds a thin birefringence-compensating layer, which results in a double-core waveguiding structure. One of the major advantages of the double-core concept is its technological simplicity. The impact of the layer parameters is simulated and the compensating mechanisms are discussed. The feasibility of this concept is demonstrated on waveguides fabricated with silicon oxynitride technology, where the channel birefringence is tuned over a wide range(+1.6/spl times/10/sup -3/ to -1.1/spl times/10/sup -2/) by varying the thickness of the birefringence compensating layer.
Keywords :
birefringence; claddings; compensation; integrated optics; optical communication equipment; optical waveguides; silicon compounds; tuning; SiON; birefringence compensating layer; birefringence compensation; channel birefringence tuning; communication networks; compensating mechanisms; double-core waveguiding structures; layer parameters; optical network; optical signal; polarization state; polarization-independent planar optical waveguiding structures; silicon oxynitride technology; thin birefringence-compensating layer; Birefringence; Chemical technology; Communication networks; Optical fiber communication; Optical fiber networks; Optical fiber polarization; Optical polarization; Optical waveguides; Refractive index; Silicon;
Journal_Title :
Photonics Technology Letters, IEEE
