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Ge ion implanted photonic devices and annealing for emerging applications

Ge ion implanted photonic devices and annealing for emerging applications
Ge ion implanted photonic devices and annealing for emerging applications
Germanium (Ge) ion implantation into silicon waveguides will induce lattice defects in the silicon, which can eventually change the crystal silicon into amorphous silicon and increase the refractive index from 3.48 to 3.96. A subsequent annealing process, either by using an external laser or integrated thermal heaters can partially or completely remove those lattice defects and gradually change the amorphous silicon back into the crystalline form and, therefore, reduce the material’s refractive index. Utilising this change in optical properties, we successfully demonstrated various erasable photonic devices. Those devices can be used to implement a flexible and commercially viable wafer-scale testing method for a silicon photonics fabrication line, which is a key technology to reduce the cost and increase the yield in production. In addition, Ge ion implantation and annealing are also demonstrated to enable post-fabrication trimming of ring resonators and Mach–Zehnder interferometers and to implement nonvolatile programmable photonic circuits.
Annealing, Ge ion implantation, Optical waveguide, Post-fabrication trimming, Programmable photonic circuits, Silicon photonics, Wafer-scale testing
2072-666X
Yu, Xingshi
a368e8ff-5e3d-4538-8166-aa0011812bd0
Chen, Xia
64f6ab92-ca11-4489-8c03-52bc986209ae
Milošević, Milan M.
b28da945-84a5-4317-8896-6d9ea6a69589
Shen, Weihong
2facca30-447b-4303-9e4c-5f19abf1e3d7
Topley, Rob
5cc9865c-b1a6-42a3-81ca-fe613776e236
Chen, Bigeng
e533448b-095e-4a9f-924c-301f4aa3007b
Yan, Xingzhao
320b9089-1fb3-485a-8c1f-45fb1f86efa0
Cao, Wei
5202fa2b-a471-45d4-84e9-9104dffdbbfc
Thomson, David J.
17c1626c-2422-42c6-98e0-586ae220bcda
Saito, Shinichi
14a5d20b-055e-4f48-9dda-267e88bd3fdc
Peacock, Anna C.
685d924c-ef6b-401b-a0bd-acf1f8e758fc
Muskens, Otto L.
2284101a-f9ef-4d79-8951-a6cda5bfc7f9
Reed, Graham T.
ca08dd60-c072-4d7d-b254-75714d570139
Yu, Xingshi
a368e8ff-5e3d-4538-8166-aa0011812bd0
Chen, Xia
64f6ab92-ca11-4489-8c03-52bc986209ae
Milošević, Milan M.
b28da945-84a5-4317-8896-6d9ea6a69589
Shen, Weihong
2facca30-447b-4303-9e4c-5f19abf1e3d7
Topley, Rob
5cc9865c-b1a6-42a3-81ca-fe613776e236
Chen, Bigeng
e533448b-095e-4a9f-924c-301f4aa3007b
Yan, Xingzhao
320b9089-1fb3-485a-8c1f-45fb1f86efa0
Cao, Wei
5202fa2b-a471-45d4-84e9-9104dffdbbfc
Thomson, David J.
17c1626c-2422-42c6-98e0-586ae220bcda
Saito, Shinichi
14a5d20b-055e-4f48-9dda-267e88bd3fdc
Peacock, Anna C.
685d924c-ef6b-401b-a0bd-acf1f8e758fc
Muskens, Otto L.
2284101a-f9ef-4d79-8951-a6cda5bfc7f9
Reed, Graham T.
ca08dd60-c072-4d7d-b254-75714d570139

Yu, Xingshi, Chen, Xia, Milošević, Milan M., Shen, Weihong, Topley, Rob, Chen, Bigeng, Yan, Xingzhao, Cao, Wei, Thomson, David J., Saito, Shinichi, Peacock, Anna C., Muskens, Otto L. and Reed, Graham T. (2022) Ge ion implanted photonic devices and annealing for emerging applications. Micromachines, 13 (2), [291]. (doi:10.3390/mi13020291).

Record type: Article

Abstract

Germanium (Ge) ion implantation into silicon waveguides will induce lattice defects in the silicon, which can eventually change the crystal silicon into amorphous silicon and increase the refractive index from 3.48 to 3.96. A subsequent annealing process, either by using an external laser or integrated thermal heaters can partially or completely remove those lattice defects and gradually change the amorphous silicon back into the crystalline form and, therefore, reduce the material’s refractive index. Utilising this change in optical properties, we successfully demonstrated various erasable photonic devices. Those devices can be used to implement a flexible and commercially viable wafer-scale testing method for a silicon photonics fabrication line, which is a key technology to reduce the cost and increase the yield in production. In addition, Ge ion implantation and annealing are also demonstrated to enable post-fabrication trimming of ring resonators and Mach–Zehnder interferometers and to implement nonvolatile programmable photonic circuits.

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micromachines-13-00291 - Version of Record
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Accepted/In Press date: 7 February 2022
Published date: 12 February 2022
Keywords: Annealing, Ge ion implantation, Optical waveguide, Post-fabrication trimming, Programmable photonic circuits, Silicon photonics, Wafer-scale testing

Identifiers

Local EPrints ID: 481805
URI: http://eprints.soton.ac.uk/id/eprint/481805
ISSN: 2072-666X
PURE UUID: 25d17801-1f4c-4c4f-96ed-29a51292c73d
ORCID for Xia Chen: ORCID iD orcid.org/0000-0002-0994-5401
ORCID for Bigeng Chen: ORCID iD orcid.org/0000-0003-4925-2308
ORCID for Wei Cao: ORCID iD orcid.org/0000-0003-1431-7060
ORCID for Shinichi Saito: ORCID iD orcid.org/0000-0003-1539-1182
ORCID for Anna C. Peacock: ORCID iD orcid.org/0000-0002-1940-7172
ORCID for Otto L. Muskens: ORCID iD orcid.org/0000-0003-0693-5504

Catalogue record

Date deposited: 08 Sep 2023 16:40
Last modified: 14 Dec 2024 02:46

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Contributors

Author: Xingshi Yu
Author: Xia Chen ORCID iD
Author: Milan M. Milošević
Author: Weihong Shen
Author: Rob Topley
Author: Bigeng Chen ORCID iD
Author: Xingzhao Yan
Author: Wei Cao ORCID iD
Author: David J. Thomson
Author: Shinichi Saito ORCID iD
Author: Anna C. Peacock ORCID iD
Author: Otto L. Muskens ORCID iD
Author: Graham T. Reed

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