Investigation of slow light enhanced nonlinear transmission for all-optical regeneration in silicon photonic crystal waveguides at 10 Gbit/s

Pudo, D; Corcoran, B; Monat, Christelle; Pelusi, M; Moss, David; Eggleton, Ben; White, T.P; O'Faolain, L; Krauss, T.F

Investigation of slow light enhanced nonlinear transmission for all-optical regeneration in silicon photonic crystal waveguides at 10 Gbit/s

https://hdl.handle.net/10779/rmit.27465117

journal contribution

posted on 2024-11-01, 15:56 authored by D Pudo, B Corcoran, Christelle Monat, M Pelusi, David Moss, Ben Eggleton, T.P White, L O'Faolain, T.F Krauss

We demonstrate bit error rate improvement, corroborated by eye diagram measurements, of a (10 MHz) amplitude distorted 10 Gbit/s data signal in silicon photonic crystal waveguides. This demonstration exploits a power clamping nonlinear transfer function, provided by slow light enhancement of nonlinear absorption in these waveguides.

History

Related Materials

1.
DOI - Is published in 10.1016/j.photonics.2009.08.002
2.
ISSN - Is published in 15694410

Journal

Photonics and Nanostructures - Fundamentals and Applications

Volume

8

Issue

2

Start page

67

End page

71

Total pages

5

Publisher

Elsevier Science

Place published

Amsterdam

Language

English

Copyright

Former Identifier

2006047525

Esploro creation date

2020-06-22

Fedora creation date

2015-01-19

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Keywords

Nonlinear optics Photonic crystal Slow light Telecommunications

Investigation of slow light enhanced nonlinear transmission for all-optical regeneration in silicon photonic crystal waveguides at 10 Gbit/s

History

Related Materials

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Volume

Issue

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End page

Total pages

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Place published

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Copyright

Former Identifier

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