Title :
Analysis of magneto-optic nonreciprocal phase shift in asymmetric fibers for all-fiber isolators by variational vector-wave mode-matching method
Author :
Wang, Weyl-kuo ; Wolfe, Raymond ; Anthony, Philip J.
Author_Institution :
AT&T Bell Labs., Murray Hill, NJ, USA
fDate :
5/1/1996 12:00:00 AM
Abstract :
Magneto-optic nonreciprocal phase shift in fibers with rare-earth doped asymmetric cores is accurately characterized by a variational approach with the required vector fields obtained from the mode-matching method. Implemented in an equivalent transmission-line network, this method can be readily applied to arbitrary channel waveguide structures. Results of the nonreciprocal phase shift for two configurations of magneto-optic asymmetric fibers are presented and the effect is optimized with respects to the structural parameters of fibers. It is shown that an all-fiber isolator could be constructed with fibers with reasonable lengths in an applied magnetic field of 1 kOe
Keywords :
integrated optics; magneto-optical isolators; mode matching; optical fibres; phase shifters; transmission line matrix methods; variational techniques; vectors; all-fiber isolators; applied magnetic field; arbitrary channel waveguide structures; asymmetric fibers; equivalent transmission-line network; fiber structural parameters; magneto-optic integrated waveguide structure; magneto-optic nonreciprocal phase shift; rare-earth doped asymmetric cores; variational vector-wave mode-matching method; Isolators; Magnetic analysis; Magnetic cores; Magnetic fields; Magnetooptic effects; Mode matching methods; Optical fiber communication; Optical fiber devices; Optical waveguides; Refractive index;
Journal_Title :
Lightwave Technology, Journal of
