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Demonstration of Cladding-Pumped Six-Core Erbium-Doped Fiber Amplifier
Haoshuo Chen,Fontaine, Nicolas K.,Ryf, Roland,Cang Jin,Bin Huang,Kuanping Shang,Essiambre, Rene-Jean,Lixian Wang,Hayashi, Tetsuya,Nagashima, Takuji,Sasaki, Takashi,Messaddeq, Younes,LaRochelle, Sophie IEEE 2016 Journal of Lightwave Technology Vol.34 No.8
<P>We demonstrate cladding-pumped six-core Erbium-doped fiber amplifiers (EDFAs) using two different pump coupling schemes: edge-coupled and side-coupled pumping, where a single multimode laser diode can be applied to pump all cores. Using two in-line cladding-pumped EDFAs at the input and output of a 31-km coupled-six-core fiber, we realized 465-km space-division multiplexing and wavelength division multiplexing transmission in a recirculating loop and achieved a spectral efficiency of 18 bits/s/Hz. Through side-coupled pumping, the cladding-pumped six-core EDFA produced >18-dBm output power per core and had <;6-dB noise figure across the C-band.</P>
Huang, Bin,Chen, Haoshuo,Fontaine, Nicolas K.,Jin, Cang,Shang, Kuanping,Ryf, Roland,Essiambre, Rene-Jean,Ung, Bora,Messaddeq, Younes,LaRochelle, Sophie,Li, Guifang IEEE 2017 Journal of Lightwave Technology Vol.35 No.4
<P>We directly measure the spatially and spectrally resolved gain of erbium doped multicore and few mode fiber amplifiers using a coherent swept wavelength interferometer operated in the reflection mode. It greatly simplifies the characterization of multispatial mode amplifiers because it enables characterization of the mode-dependent gain with only a single mode-selective multiplexer at the input. The gains for both multicore fiber amplifier and three spatial modes (LP<SUB>01</SUB> and <TEX>${\rm{LP}}_{{11}}$</TEX>) amplifier are measured. Measurements for multicore fiber amplifier are conducted using two pump schemes, core pump and cladding pump. Also, the comparison with the cutback experiments shows the validity of this technique.</P>
Transmission Over 1050-km Few-Mode Fiber Based on Bidirectional Distributed Raman Amplification
Esmaeelpour, Mina,Ryf, Roland,Fontaine, Nicolas K.,Haoshuo Chen,Gnauck, Alan H.,Essiambre, Rene-Jean,Toulouse, Jean,Yi Sun,Lingle, Robert IEEE 2016 Journal of Lightwave Technology Vol.34 No.8
<P>We characterize the distributed Raman amplification in a 70-km three spatial-mode few-mode fiber with different pump configurations and demonstrate bidirectional pumped Raman amplification and 1050 km combined wavelength-division and spatial-division multiplexed transmission in the same fiber with a zero net gain fiber span.</P>
All-fiber 6-mode multiplexers based on fiber mode selective couplers
Chang, Sun Hyok,Moon, Sang-Rok,Chen, Haoshuo,Ryf, Roland,Fontaine, Nicolas K.,Park, Kyung Jun,Kim, Kwangjoon,Lee, Joon Ki The Optical Society 2017 Optics express Vol.25 No.5
<P>All-fiber 6-mode multiplexer composed of two consecutive LP11-mode selective couplers (MSC), two LP21-MSCs and an LP02-MSC is fully characterized by wavelength-swept interferometer technique. The MSCs are fabricated by polished-type fiber couplers coupling LP01 mode of a single mode fiber into a higher-order mode of a few mode fiber. A pair of the mode multiplexers has minimum mode dependent loss of 4 dB and high mode group selectivity of over 15 dB. Mode division multiplexed transmission enabled by the all-fiber mode multiplexers is demonstrated over fiber spans of 117 km employing an in-line multi-mode optical amplifier. 6 modes of 120 Gb/s dual polarization quadrature phase shift keying signals combined with 30 wavelength channels are successfully transmitted. (C) 2017 Optical Society of America</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>