Trends in Opto-Electro & Optical Communications

A digitally wavelength tunable optical filter system is analysed for timing performance. This digitally tunable optical filter system was recently proposed, it utilized  semiconductor optical amplifiers, wavelength selection elements, splitters, combiners and optical fibers for achieving filtering action.  This paper presents a theory for calculating transmission/delay times of different wavelengths. The delay time equations are derived for all center wavelengths of the filter. These transmission time calculations can be used for routing and/or path selection decisions of different wavelengths. A system can be analysed for any number of wavelengths by using this method. The method of analysis can be used in similar type of digitally tunable optical filter systems.

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X. Li, J. Chen, G. Wu, A. Ye, “Digitally tunable optical filter based on DWDM thin film filters and semiconductor optical amplifiers”, Opt. Express, vol.13, pp. 1346-1350, 2005.

H. Tanaka, I. Takai, H. Fujikawa, and H. Iizuka, "Nearly Polarization-Independent Angular Filters Consisting of One-Dimensional Photonic Crystals Realized in the Visible Region," J. Lightwave Technol., vol. 36, pp. 2517-2523, 2018.

B. Wang, and M. A. Cappelli, “A tunable microwave plasma photonic crystal filter,” Appl. Phys. Lett., vol. 107, p. 171107, 2015.

B. Suthar, and A. Bhargava, “Temperature-dependent tunable photonic channel filter,” IEEE Photon. Technol. Lett., vol. 24, pp. 338–340, 2012.

S.K. Awasthi, and S.P. Ojha, “Design of a tunable optical filter by using one-dimensional ternary photonic band gap material,” Prog. Electromagn. Res. M, vol. 4, pp. 117-132, 2008.