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All-Optical Data Vortex Node Using an MZI-SOA Switch Array
Hyun-Do Jung,Monroy, I.T.,Koonen, A.M.J.,Tangdiongga, E. IEEE 2007 IEEE photonics technology letters Vol.19 No.21-24
<P>We propose and demonstrate a new structure of a Data Vortex switch node for all-optical routing of wavelength-division-multiplexing (WDM) 10-Gb/s optical packets. The proposed node consists of two Mach-Zehnder interferometers with integrated semiconductor optical amplifier: an optical and gate and a high-speed optical switch. In the experiment, WDM 10-Gb/s data packets are successfully routed with 1-dB power penalty at a bit-error rate of 10<SUP>-9</SUP>.</P>
28-GBd 32QAM FMF Transmission With Low Complexity Phase Estimators and Single DPLL
van Uden, Roy G. H.,Okonkwo, Chigo M.,Haoshuo Chen,de Waardt, Hugo,Koonen, Antonius M. J. IEEE 2014 IEEE photonics technology letters Vol.26 No.8
<P>As spatial division multiplexed transmission systems employing few mode fibers (FMFs) rely heavily on digital signal processing (DSP), the impact of computational complexity should be considered. A key DSP process block is the carrier phase estimation (CPE), which consists of a phase estimator and digital phase locked loop (DPLL) per output. In this letter, a low complexity phase estimator is proposed, and the common-mode laser frequency offset is exploited to reduce the number of DPLLs. The combination of a low complexity CPE and single DPLL is experimentally demonstrated for a 28 GBd six-channel transmission over a 41.7-km FMF, carrying up to 32 quadrature amplitude modulation. Thereby, the nonlinear tolerances for the proposed CPE scheme are shown to perform similarly as the more computationally complex conventional CPE scheme.</P>
Mode-multiplexed transmission over conventional graded-index multimode fibers.
Ryf, R,Fontaine, N K,Chen, H,Guan, B,Huang, B,Esmaeelpour, M,Gnauck, A H,Randel, S,Yoo, S J B,Koonen, A M J,Shubochkin, R,Sun, Y,Lingle, R Optical Society of America 2015 Optics express Vol.23 No.1
<P>We present experimental results for combined mode-multiplexed and wavelength multiplexed transmission over conventional graded-index multimode fibers. We use mode-selective photonic lanterns as mode couplers to precisely excite a subset of the modes of the multimode fiber and additionally to compensate for the differential group delay between the excited modes. Spatial mode filters are added to suppress undesired higher order modes. We transmit 30-Gbaud QPSK signals over 60 WDM channels, 3 spatial modes, and 2 polarizations, reaching a distance of 310 km based on a 44.3 km long span. We also report about transmission experiments over 6 spatial modes for a 17-km single-span experiment. The results indicate that multimode fibers support scalable mode-division multiplexing approaches, where modes can be added over time if desired. Also the results indicate that mode-multiplexed transmission distance over 300 km are possible in conventional multimode fibers.</P>