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Ultrafast laser writing in different types of silica glass

Ultrafast laser writing in different types of silica glass
Ultrafast laser writing in different types of silica glass
It is demonstrated that ultrafast laser writing in silica glass depends on the grade of silica glass associated with the method of its manufacture. Moreover, laser-written modifications, in particular birefringent modifications, reveal a dependence on the geometry of writing, that is, the modification strength of voxels is smaller than that of single line structures and multi-line scanned areas, which can be explained by free carrier diffusion and reduced electric field in scanning writing. The retardance of scanned birefringent region produced in the regime of anisotropic nanopores formation in silica glass manufactured by vapor axial deposition (VAD) is about five times higher than that in an electrically fused sample at the same laser writing parameters, while the difference in retardance of a nanograting based modification in synthetic and fused silica is only about 10%. The phenomenon is interpreted in terms of the higher concentration of oxygen deficient centers in the electrically fused silica glass, which can confine self-trapped holes and prevent the nanopores formation. Improvement of high transmission optical elements is demonstrated in the VAD sample, and low cost multiplexed optical data storage with higher capacity and readout accuracy is realized in the electrically fused silica glass.
defects, free carrier diffusion, silica glass, ultrafast laser writing
1863-8880
Lei, Yuhao
347ba758-df03-47b6-baed-3a58285173f7
Wang, Huijun
71d8cb32-58db-496b-8e5d-cf378dda5a53
Skuja, Linards
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Kühn, Bodo
03353385-be6f-4ef8-905a-a386d8c9f031
Franz, Bernhard
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Svirko, Yuri
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Kazansky, Peter
a5d123ec-8ea8-408c-8963-4a6d921fd76c
Lei, Yuhao
347ba758-df03-47b6-baed-3a58285173f7
Wang, Huijun
71d8cb32-58db-496b-8e5d-cf378dda5a53
Skuja, Linards
0f0870c2-4d78-4e9a-a10d-ac3ab33c318f
Kühn, Bodo
03353385-be6f-4ef8-905a-a386d8c9f031
Franz, Bernhard
dbea1b0b-ce89-4755-a011-3f296a3055cd
Svirko, Yuri
6bbd8bcc-2767-4d92-b6c0-2910ab144049
Kazansky, Peter
a5d123ec-8ea8-408c-8963-4a6d921fd76c

Lei, Yuhao, Wang, Huijun, Skuja, Linards, Kühn, Bodo, Franz, Bernhard, Svirko, Yuri and Kazansky, Peter (2023) Ultrafast laser writing in different types of silica glass. Laser & Photonics Reviews, 17 (7), [2200978]. (doi:10.1002/lpor.202200978).

Record type: Article

Abstract

It is demonstrated that ultrafast laser writing in silica glass depends on the grade of silica glass associated with the method of its manufacture. Moreover, laser-written modifications, in particular birefringent modifications, reveal a dependence on the geometry of writing, that is, the modification strength of voxels is smaller than that of single line structures and multi-line scanned areas, which can be explained by free carrier diffusion and reduced electric field in scanning writing. The retardance of scanned birefringent region produced in the regime of anisotropic nanopores formation in silica glass manufactured by vapor axial deposition (VAD) is about five times higher than that in an electrically fused sample at the same laser writing parameters, while the difference in retardance of a nanograting based modification in synthetic and fused silica is only about 10%. The phenomenon is interpreted in terms of the higher concentration of oxygen deficient centers in the electrically fused silica glass, which can confine self-trapped holes and prevent the nanopores formation. Improvement of high transmission optical elements is demonstrated in the VAD sample, and low cost multiplexed optical data storage with higher capacity and readout accuracy is realized in the electrically fused silica glass.

Text
Laser Photonics Reviews - 2023 - Lei - Ultrafast Laser Writing in Different Types of Silica Glass - Version of Record
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e-pub ahead of print date: 16 February 2023
Published date: July 2023
Additional Information: Funding Information: The study was supported by the European Research Council (ENIGMA, grant No. 789116), the Microsoft (Project Silica), Horizon 2020 RISE Project (CHARTIST, 101007896), and the Academy of Finland (343393, 320166). Publisher Copyright: © 2023 The Authors. Laser & Photonics Reviews published by Wiley-VCH GmbH.
Keywords: defects, free carrier diffusion, silica glass, ultrafast laser writing
Learn more about Zepler Institute for Photonics and Nanoelectronics research Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 477361
URI: http://eprints.soton.ac.uk/id/eprint/477361
DOI: doi:10.1002/lpor.202200978
ISSN: 1863-8880
PURE UUID: 6b37625c-26b3-4986-bb44-c8dc4b5812d0

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Date deposited: 05 Jun 2023 16:43
Last modified: 17 Mar 2024 01:27

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Contributors

Author: Yuhao Lei
Author: Huijun Wang
Author: Linards Skuja
Author: Bodo Kühn
Author: Bernhard Franz
Author: Yuri Svirko
Author: Peter Kazansky

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