Low bend loss femtosecond written waveguides exploiting microcrack enhanced modal confinement
Low bend loss femtosecond written waveguides exploiting microcrack enhanced modal confinement
While recent advances in femtosecond writing have allowed rapid and flexible realization of lab-on-chip and integrated optics systems in various media, miniaturisation of such fs-written waveguide architectures remains hampered by high bend loss α b . Despite efforts to reduce bend loss, e.g. by annealing the waveguides [1] or writing stress structures [2], the minimum bend radius at telecommunications wavelengths remains large (> 16mm) in silica [1]. To overcome this, we demonstrate a novel bend loss reduction method by inducing stress to fabricate a microcrack on the outer bend edge of the waveguide. The large index difference at the core-microcrack interface (1.45 vs 1.0) enhances modal confinement and inhibits radiation loss. Laser induced stress cracking is often used for dicing glass sheets with excellent smoothness (roughness <; 30nm) [3]; hence such cracks will not exacerbate scattering losses when integrated alongside a waveguide.
Lee, Timothy
beb3b88e-3e5a-4c3f-8636-bb6de8040fcc
Sun, Qi
66e3c3df-5a60-4927-a47a-c4f6020c2fc0
Ismaeel, Rand
c1fb0984-a4c0-484a-8aef-625d48a62086
Beresna, Martynas
a6dc062e-93c6-46a5-aeb3-8de332cdec7b
Brambilla, Gilberto
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22 June 2019
Lee, Timothy
beb3b88e-3e5a-4c3f-8636-bb6de8040fcc
Sun, Qi
66e3c3df-5a60-4927-a47a-c4f6020c2fc0
Ismaeel, Rand
c1fb0984-a4c0-484a-8aef-625d48a62086
Beresna, Martynas
a6dc062e-93c6-46a5-aeb3-8de332cdec7b
Brambilla, Gilberto
815d9712-62c7-47d1-8860-9451a363a6c8
Lee, Timothy, Sun, Qi, Ismaeel, Rand, Beresna, Martynas and Brambilla, Gilberto
(2019)
Low bend loss femtosecond written waveguides exploiting microcrack enhanced modal confinement.
2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference, CLEO/Europe-EQEC 2019, ICM – International Congress Centre, Munich, Germany.
23 - 27 Jun 2019.
(doi:10.1109/CLEOE-EQEC.2019.8872786).
Record type:
Conference or Workshop Item
(Paper)
Abstract
While recent advances in femtosecond writing have allowed rapid and flexible realization of lab-on-chip and integrated optics systems in various media, miniaturisation of such fs-written waveguide architectures remains hampered by high bend loss α b . Despite efforts to reduce bend loss, e.g. by annealing the waveguides [1] or writing stress structures [2], the minimum bend radius at telecommunications wavelengths remains large (> 16mm) in silica [1]. To overcome this, we demonstrate a novel bend loss reduction method by inducing stress to fabricate a microcrack on the outer bend edge of the waveguide. The large index difference at the core-microcrack interface (1.45 vs 1.0) enhances modal confinement and inhibits radiation loss. Laser induced stress cracking is often used for dicing glass sheets with excellent smoothness (roughness <; 30nm) [3]; hence such cracks will not exacerbate scattering losses when integrated alongside a waveguide.
Text
Lee CLEO EU
- Accepted Manuscript
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Published date: 22 June 2019
Venue - Dates:
2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference, CLEO/Europe-EQEC 2019, ICM – International Congress Centre, Munich, Germany, 2019-06-23 - 2019-06-27
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Local EPrints ID: 430180
URI: http://eprints.soton.ac.uk/id/eprint/430180
PURE UUID: a36c0635-ca7a-4182-a746-5e1482422b20
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Date deposited: 16 Apr 2019 16:30
Last modified: 16 Mar 2024 03:21
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Contributors
Author:
Timothy Lee
Author:
Qi Sun
Author:
Rand Ismaeel
Author:
Martynas Beresna
Author:
Gilberto Brambilla
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