Data transmission at 1300 nm using optical interposer comprising hybrid integrated silicon waveguide and dilute nitride electroabsorption modulator

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Date
2018-12-24
Authors
Sheehan, Robert N.
Guina, Mircea
Viheriälä, Jukka
Isoaho, Riku
Harjanne, Mikko
Azarello, Francesco
Yang, Mingqi
Malacarne, Antonio
Aalto, Timo
Peters, Frank H.
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Optical Society of America
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Abstract
High speed back-to-back transmission of NRZ data at 12.5 Gbit/s was achieved over a repeaterless optical network without the use of forward error correction or optical clock recovery using a hybrid integrated silicon photonics optical interconnect. The interconnect comprises an electroabsorption modulator based on dilute nitride multiple quantum well material on GaAs substrate optically coupled to large core silicon waveguide using passive alignment and flip-chip bonding.
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Keywords
Diode lasers , Optical amplification , Physical vapor deposition , Quantum well materials , Silica , Single mode fibers
Citation
Sheehan, R. N., Guina, M., Viheriälä, J., Isoaho, R., Harjanne, M., Azarello, F., Yang, M., Malacarne, A., Aalto, T. and Peters, F. H. (2018) 'Data transmission at 1300 nm using optical interposer comprising hybrid integrated silicon waveguide and dilute nitride electroabsorption modulator', Optics Express, 26(26), pp. 34336-34345. doi:10.1364/OE.26.034336
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© 2018, Optical Society of America under the terms of the OSA Open Access Publishing Agreement