S. Chandrasekhar scite author profile

We describe a new multicore fiber (MCF) having seven single-mode cores arranged in a hexagonal array, exhibiting low crosstalk among the cores and low loss across the C and L bands. We experimentally demonstrate a record transmission capacity of 112 Tb/s over a 76.8-km MCF using space-division multiplexing and dense wavelength-division multiplexing (DWDM). Each core carries 160 107-Gb/s polarization-division multiplexed quadrature phase-shift keying (PDM-QPSK) channels on a 50-GHz grid in the C and L bands, resulting in an aggregate spectral efficiency of 14 b/s/Hz. We further investigate the impact of the inter-core crosstalk on a 107-Gb/s PDM-QPSK signal after transmitting through the center core of the MCF when all the 6 outer cores carry same-wavelength 107-Gb/s signals with equal powers, and discuss the system implications of core-to-core crosstalk on ultra-long-haul transmission.

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2.5 Tb/s (64/spl times/42.7 Gb/s) transmission over 40/spl times/100 km NZDSF using RZ-DPSK format and all-Raman-amplified spans

Gnauck¹,

Raybon²,

Chandrasekhar³

et al. 2002

141

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Monolithic Polarization and Phase Diversity Coherent Receiver in Silicon

Doerr¹,

Winzer²,

Chen³

et al. 2010

J. Lightwave Technol.

139

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S. Chandrasekhar

Integrated lithium niobate electro-optic modulators operating at CMOS-compatible voltages

Phase-conjugated twin waves for communication beyond the Kerr nonlinearity limit

112-Tb/s Space-division multiplexed DWDM transmission with 14-b/s/Hz aggregate spectral efficiency over a 768-km seven-core fiber

2.5 Tb/s (64/spl times/42.7 Gb/s) transmission over 40/spl times/100 km NZDSF using RZ-DPSK format and all-Raman-amplified spans

Monolithic Polarization and Phase Diversity Coherent Receiver in Silicon

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