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High-performance optical code generation and recognition by use of a 511-chip, 640-Gchip/s phase-shifted superstructured fiber Bragg grating

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Abstract

The generation and recognition of a record-length 511-chip optical code is experimentally demonstrated by use of a superstructured fiber Bragg grating (SSFBG) with a chip rate of 640 Gchips/s. Very high reflectivity (92%) is achieved with high-quality correlation properties. The temperature deviation tolerance is approximately ±0.3 C°, which is within the package’s temperature stability range ±0.1 C°. Experimental results show good agreement with the theory. They indicate the SSFBG’s potential for processing a long optical code with an ultrahigh chip rate, which could significantly improve the system’s performance.

© 2005 Optical Society of America

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