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Design optimization of a silicon/organic hybrid micro-resonator for 2D WH/TS optical encoding

K. S. RESMI1,* , PRITA NAIR1

Affiliation

  1. Department of Physics, SSN College of Engineering, Kalavakkam, India 603 110

Abstract

Optimum design for the realization of a novel dynamic WH/TS optical encoder by fast EO tuning of defect mode of an EO polymer infiltrated 1D Si Photonic Crystal resonator has been presented. Uniformity in transfer characteristics, line width, efficiency, size, and power usage are the metrics used for optimization. In the design, chip duration, wavelength selection and time gating functions can be programmed to provide adaptive OCDMA encoding providing easy low power, low cost upgrade in capacity of standard 10Gbps systems in access networks to about 200Gbps. Availability of wide bandwidth and reconfigurable codes accounts for the improved number of users ensured by the single reconfigurable device design..

Keywords

Optical code division multiple access (OCDMA), Photonic crystal(PhC), Electro-optic(EO) effect.

Submitted at: Sept. 12, 2016
Accepted at: June 7, 2017

Citation

K. S. RESMI, PRITA NAIR, Design optimization of a silicon/organic hybrid micro-resonator for 2D WH/TS optical encoding, Journal of Optoelectronics and Advanced Materials Vol. 19, Iss. 5-6, pp. 325-330 (2017)