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Design and characterization of a ferromagnetic, air gapped magneto-optic Faraday rotator

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Abstract

A method has been developed to modulate the plane of polarized light through the use of a high permeability ferrite core design. A proof-of-principal, optical Faraday effect device has been constructed and tested. Magnetic fields were generated to provide up to 1 deg of rotation at frequencies of direct current up to 10 kHz using a terbium gallium garnet crystal rod.

© 2013 Optical Society of America

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