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Hybrid III-V on silicon lasers for photonic integrated circuits on silicon

Hybrid III-V on silicon lasers for photonic integrated circuits on silicon
Hybrid III-V on silicon lasers for photonic integrated circuits on silicon
This paper summarizes recent advances of integrated hybrid InP/SOI lasers and transmitters based on wafer bonding. At first the integration process of III-V materials on silicon is described. Then the paper reports on the results of single wavelength distributed Bragg reflector lasers with Bragg gratings etched on silicon waveguides. We then demonstrate that, thanks to the high-quality silicon bend waveguides, hybrid III-V/Si lasers with two integrated intra-cavity ring resonators can achieve a wide thermal tuning range, exceeding the C band, with a side mode suppression ratio higher than 40 dB. Moreover, a compact array waveguide grating on silicon is integrated with a hybrid III-V/Si gain section, creating a wavelength-selectable laser source with 5 wavelength channels spaced by 400 GHz. We further demonstrate an integrated transmitter with combined silicon modulators and tunable hybrid III-V/Si lasers. The integrated transmitter exhibits 9 nm wavelength tunability by heating an intra-cavity ring resonator, high extinction ratio from 6 to 10 dB, and excellent bit-error-rate performance at 10 Gb/s.
1077-260X
158-170
Duan, Guang-Hua
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Jany, Christophe
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Le Liepvre, Alban
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Accard, Alain
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Lamponi, Marco
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Make, Dalila
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Kaspar, Peter
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Levaufre, Guillaume
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Girard, Nils
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Lelarge, Francois
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Fédéli, Jean-Marc
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Descos, Antoine
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Ben Bakir, Badhise
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Messaoudene, Sonia
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Bordel, Damien
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Menezo, Sylvie
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de Valicourt, Guilhem
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Keyvaninia, Shahram
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Roelkens, Gunter
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Van Thourhout, Dries
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Thomson, David J.
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Gardes, Frederic Y.
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Reed, Graham T.
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Duan, Guang-Hua
0420407f-6080-459f-9b96-8f8c0c9c42e8
Jany, Christophe
63f991f1-21b4-42bc-abfd-74a4aaa1cc00
Le Liepvre, Alban
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Accard, Alain
1fdb695c-1b02-44f6-a0c6-2a0717938edb
Lamponi, Marco
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Make, Dalila
34164daf-0c4d-42b8-852e-dcd325317ddc
Kaspar, Peter
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Levaufre, Guillaume
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Girard, Nils
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Lelarge, Francois
c84409a5-7218-4857-9f3b-eec0f1f41606
Fédéli, Jean-Marc
5ad7c53a-9334-4b13-bd8e-9bef92753030
Descos, Antoine
ceb21eec-4ab2-47b6-8a28-24986e8a7145
Ben Bakir, Badhise
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Messaoudene, Sonia
ee5658b3-1dae-40ce-b10c-9c442f9f50bc
Bordel, Damien
d6ed6e13-d8c7-447d-aee0-fbdb186078c0
Menezo, Sylvie
6cacce21-ce1b-4540-af17-0a1802d2c094
de Valicourt, Guilhem
d8e7248a-32db-4864-8e21-8e2f03ec2288
Keyvaninia, Shahram
ed57d481-ff99-4e13-b986-3e5b84cc4fc1
Roelkens, Gunter
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Van Thourhout, Dries
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Thomson, David J.
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Gardes, Frederic Y.
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Reed, Graham T.
ca08dd60-c072-4d7d-b254-75714d570139

Duan, Guang-Hua, Jany, Christophe, Le Liepvre, Alban, Accard, Alain, Lamponi, Marco, Make, Dalila, Kaspar, Peter, Levaufre, Guillaume, Girard, Nils, Lelarge, Francois, Fédéli, Jean-Marc, Descos, Antoine, Ben Bakir, Badhise, Messaoudene, Sonia, Bordel, Damien, Menezo, Sylvie, de Valicourt, Guilhem, Keyvaninia, Shahram, Roelkens, Gunter, Van Thourhout, Dries, Thomson, David J., Gardes, Frederic Y. and Reed, Graham T. (2014) Hybrid III-V on silicon lasers for photonic integrated circuits on silicon. IEEE Journal of Selected Topics in Quantum Electronics, 20 (4), 158-170. (doi:10.1109/JSTQE.2013.2296752).

Record type: Article

Abstract

This paper summarizes recent advances of integrated hybrid InP/SOI lasers and transmitters based on wafer bonding. At first the integration process of III-V materials on silicon is described. Then the paper reports on the results of single wavelength distributed Bragg reflector lasers with Bragg gratings etched on silicon waveguides. We then demonstrate that, thanks to the high-quality silicon bend waveguides, hybrid III-V/Si lasers with two integrated intra-cavity ring resonators can achieve a wide thermal tuning range, exceeding the C band, with a side mode suppression ratio higher than 40 dB. Moreover, a compact array waveguide grating on silicon is integrated with a hybrid III-V/Si gain section, creating a wavelength-selectable laser source with 5 wavelength channels spaced by 400 GHz. We further demonstrate an integrated transmitter with combined silicon modulators and tunable hybrid III-V/Si lasers. The integrated transmitter exhibits 9 nm wavelength tunability by heating an intra-cavity ring resonator, high extinction ratio from 6 to 10 dB, and excellent bit-error-rate performance at 10 Gb/s.

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JSTQE_laser_Final.pdf - Accepted Manuscript
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More information

e-pub ahead of print date: 2 January 2014
Published date: July 2014
Additional Information: Invited paper
Organisations: Optoelectronics Research Centre, Electronics & Computer Science

Identifiers

Local EPrints ID: 368064
URI: http://eprints.soton.ac.uk/id/eprint/368064
ISSN: 1077-260X
PURE UUID: 574faf2f-5a0f-4acf-a854-1601e591822f
ORCID for Frederic Y. Gardes: ORCID iD orcid.org/0000-0003-1400-3272

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Date deposited: 14 Aug 2014 15:20
Last modified: 15 Mar 2024 03:40

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Contributors

Author: Guang-Hua Duan
Author: Christophe Jany
Author: Alban Le Liepvre
Author: Alain Accard
Author: Marco Lamponi
Author: Dalila Make
Author: Peter Kaspar
Author: Guillaume Levaufre
Author: Nils Girard
Author: Francois Lelarge
Author: Jean-Marc Fédéli
Author: Antoine Descos
Author: Badhise Ben Bakir
Author: Sonia Messaoudene
Author: Damien Bordel
Author: Sylvie Menezo
Author: Guilhem de Valicourt
Author: Shahram Keyvaninia
Author: Gunter Roelkens
Author: Dries Van Thourhout
Author: David J. Thomson
Author: Frederic Y. Gardes ORCID iD
Author: Graham T. Reed

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