Article ID Journal Published Year Pages File Type
1533841 Optics Communications 2016 6 Pages PDF
Abstract

•The paper presents a bidirectional high-speed, power-compensated, 3×3 reconfigurable and multiwavelength optical cross-connect (RMB-OXC) for all-optical networks.•RMB-OXC characteristics and its performance are experimentally verified in a bidirectional 8-channel ×10 Gb/s capacity system.•The optical signal to noise ratio (OSNR) is achieved of 18.4 dB corresponds to a BER of 5×10−10.•The channel cross-connect function was demonstrated by incorporating RMB-OXC in an 50 km lightwave system.•We have observed only ~0.5 dB power penalty in the bidirectional transmission in comparison to the unidirectional transmission.•The proposed FBG-based RMB-OXC can construct the optical WDM network by providing dynamic routing function and high-channel scalability.

The paper presents a bidirectional high-speed, power-compensated, 3×3 reconfigurable and multiwavelength optical cross-connect (RMB-OXC) for all-optical networks. RMB-OXC characteristics and its performance are experimentally verified in a bidirectional 8-channel×10 Gb/s capacity system. The optical signal to noise ratio (OSNR) is achieved of 18.4 dB corresponds to a BER of 5×10−10. The channel cross-connect function was demonstrated by incorporating RMB-OXC in an 50 km lightwave system. We have observed only ~0.5 dB power penalty in the bidirectional transmission in comparison to the unidirectional transmission. The proposed RMB-OXC has vast potential and it can be utilized in many applications in high-speed wavelength division multiplexed (WDM) networks.

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Physical Sciences and Engineering Materials Science Electronic, Optical and Magnetic Materials
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