Polarization dependence of response functions in 3×3 Sagnac optical fiber current sensors
1994; Institute of Electrical and Electronics Engineers; Volume: 12; Issue: 8 Linguagem: Inglês
10.1109/50.317541
ISSN1558-2213
AutoresKent B. Rochford, G. W. Day, P. R. Forman,
Tópico(s)Optical Network Technologies
ResumoWe show theoretically that the response functions of a lossless Sagnac optical fiber current sensor based on a 3/spl times/3 coupler fundamentally depend on the polarization state of light entering the coupler even for systems with no linear birefringence. For a lossless, zero-birefringence system the desired response functions, sinusoids separated by 120/spl deg/ phase shifts, are obtained only for circularly polarized input light. The response functions for linearly polarized and depolarized inputs are sinusoids separated by 180/spl deg/ and yield zero-slope small-signal responses; in addition, two outputs are degenerate, so the responses are similar to those observed in 2/spl times/2 systems. Thus, 3/spl times/3 Sagnac systems offer no advantage over 2/spl times/2 systems for linearly polarized input light. The predicted polarization dependence of 3/spl times/3 Sagnac response functions is experimentally confirmed. This result establishes the need for increased system complexity in 3/spl times/3 Sagnac current sensors since polarization control optics are required to provide the proper input polarization. >
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