Research on multi-wavelength filtering system of dual fiber Bragg grating cascaded Sagnac loop
In order to achieve tunable high-precision filtering and expand communication capacity,this paper presents an innovative filtering system approach that combines dual optical fiber Bragg gratings cascaded with a Sagnac loop.This approach has undergone in-depth analysis and numerical simulation validation using Jones matrix theory.Within the wavelength range from 1554 nm to 1570 nm,tunability is achieved by adjusting the length difference between the optical fiber arms to introduce Sagnac phase shifts.This design not only increases the number of filtering channels but also reduces the full width at half height.It is worth noting that under the same arm length difference conditions,this system exhibits a significant improvement in precision compared with single fiber Bragg gratings and Sagnac loop filters.With a power loss of 8 dB,this filtering system allows for an arm length error tolerance of up to 196 nm while providing a more accurate transmission spectrum,making tuning more convenient.This filtering system is easy to implement and widely applicable in dense wavelength division multiplexing systems and the field of optical communication.
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