Wavelength Locking Platform for DML-based Multichannel Transmitter on a Silicon Chip

We present a platform for the feedback control of a multichannel transmitter based on DML sources and a silicon photonic multiplexer and carver circuit. Automatic tuning and wavelength locking are demonstrated in about 150 ms.

Bibliographic Details
Main Authors: Grillanda, Stefano, Fu, Shengmeng, Ji, Ruiqiang, Morichetti, Francesco, Peserico, Nicola, Belladelli, Isaia, Carminati, Marco, Ferrari, Giorgio, Sampietro, Marco, Dentin, Antoine, Dedè, Alberto, Vannucci, Antonello, Holmes, Barry, Klitis, Charalambos, Sorel, Marc, Melloni, Andrea
Format: Conference Object
Language:unknown
Published: 2016
Subjects:
DML
Online Access:http://eprints.gla.ac.uk/131310/
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record_format openpolar
spelling ftuglasgow:oai:eprints.gla.ac.uk:131310 2023-05-15T16:01:10+02:00 Wavelength Locking Platform for DML-based Multichannel Transmitter on a Silicon Chip Grillanda, Stefano Fu, Shengmeng Ji, Ruiqiang Morichetti, Francesco Peserico, Nicola Belladelli, Isaia Carminati, Marco Ferrari, Giorgio Sampietro, Marco Dentin, Antoine Dedè, Alberto Vannucci, Antonello Holmes, Barry Klitis, Charalambos Sorel, Marc Melloni, Andrea 2016-08-11 http://eprints.gla.ac.uk/131310/ unknown Grillanda, S. et al. (2016) Wavelength Locking Platform for DML-based Multichannel Transmitter on a Silicon Chip. In: 2016 Optical Fiber Communication Conference and Exhibition, Anaheim, CA, USA, 20-24 Mar 2016, ISBN 9781943580071 Conference Proceedings PeerReviewed 2016 ftuglasgow 2021-09-23T23:13:10Z We present a platform for the feedback control of a multichannel transmitter based on DML sources and a silicon photonic multiplexer and carver circuit. Automatic tuning and wavelength locking are demonstrated in about 150 ms. Conference Object DML University of Glasgow: Enlighten - Publications
institution Open Polar
collection University of Glasgow: Enlighten - Publications
op_collection_id ftuglasgow
language unknown
description We present a platform for the feedback control of a multichannel transmitter based on DML sources and a silicon photonic multiplexer and carver circuit. Automatic tuning and wavelength locking are demonstrated in about 150 ms.
format Conference Object
author Grillanda, Stefano
Fu, Shengmeng
Ji, Ruiqiang
Morichetti, Francesco
Peserico, Nicola
Belladelli, Isaia
Carminati, Marco
Ferrari, Giorgio
Sampietro, Marco
Dentin, Antoine
Dedè, Alberto
Vannucci, Antonello
Holmes, Barry
Klitis, Charalambos
Sorel, Marc
Melloni, Andrea
spellingShingle Grillanda, Stefano
Fu, Shengmeng
Ji, Ruiqiang
Morichetti, Francesco
Peserico, Nicola
Belladelli, Isaia
Carminati, Marco
Ferrari, Giorgio
Sampietro, Marco
Dentin, Antoine
Dedè, Alberto
Vannucci, Antonello
Holmes, Barry
Klitis, Charalambos
Sorel, Marc
Melloni, Andrea
Wavelength Locking Platform for DML-based Multichannel Transmitter on a Silicon Chip
author_facet Grillanda, Stefano
Fu, Shengmeng
Ji, Ruiqiang
Morichetti, Francesco
Peserico, Nicola
Belladelli, Isaia
Carminati, Marco
Ferrari, Giorgio
Sampietro, Marco
Dentin, Antoine
Dedè, Alberto
Vannucci, Antonello
Holmes, Barry
Klitis, Charalambos
Sorel, Marc
Melloni, Andrea
author_sort Grillanda, Stefano
title Wavelength Locking Platform for DML-based Multichannel Transmitter on a Silicon Chip
title_short Wavelength Locking Platform for DML-based Multichannel Transmitter on a Silicon Chip
title_full Wavelength Locking Platform for DML-based Multichannel Transmitter on a Silicon Chip
title_fullStr Wavelength Locking Platform for DML-based Multichannel Transmitter on a Silicon Chip
title_full_unstemmed Wavelength Locking Platform for DML-based Multichannel Transmitter on a Silicon Chip
title_sort wavelength locking platform for dml-based multichannel transmitter on a silicon chip
publishDate 2016
url http://eprints.gla.ac.uk/131310/
genre DML
genre_facet DML
op_relation Grillanda, S. et al. (2016) Wavelength Locking Platform for DML-based Multichannel Transmitter on a Silicon Chip. In: 2016 Optical Fiber Communication Conference and Exhibition, Anaheim, CA, USA, 20-24 Mar 2016, ISBN 9781943580071
_version_ 1766397142692265984

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