Title :
Design of a compact optical isolator
Author_Institution :
STC Technol. Ltd., Harlow, UK
Abstract :
Reports on a compact optical isolator design in which the (Faraday) rotator is composed of a wafer of bismuth substituted gadolinium iron garnet in a saturating magnetic field produced by miniature high energy cylindrical rare-earth magnets. The Faraday rotator is introduced into the optical path using single-mode birefringent fibre tapers, which expand the propagating mode-field radius and enable efficient coupling through the garnet wafer whilst maintaining the linear polarisation state necessary for good isolation; High isolation values can be maintained in the presence of errors in the nonreciprocal rotation, using a simple relative adjustment of the fibre birefringence axes
Keywords :
Faraday effect; birefringence; bismuth compounds; gadolinium compounds; garnets; magneto-optical devices; optical design techniques; optical fibres; optical isolators; BixGd3-xFe3O12; Faraday rotator; compact optical isolator; linear polarisation state; miniature high energy cylindrical rare-earth magnets; optical path; saturating magnetic field; single-mode birefringent fibre tapers;
Conference_Titel :
All-Fibre Devices, IEE Colloquium on
Conference_Location :
London
