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Low loss polycrystalline SiGe core fibers for nonlinear photonics

Low loss polycrystalline SiGe core fibers for nonlinear photonics
Low loss polycrystalline SiGe core fibers for nonlinear photonics

Polycrystalline silicon-germanium (SiGe) core fibers offer great potential as flexible platforms for microscale optoelectronic and nonlinear optical devices. Compared to silicon (Si) core fibers, the SiGe material provides the potential for higher nonlinear coefficients, extended mid-infrared wavelength coverage, and a means to tune the bandgap and index of refraction by varying the Ge composition. Here, SiGe core fibers (10 at% Ge) were fabricated using the molten core drawing method, followed by CO 2 laser irradiation to improve the homogeneity of the core. The transmission properties of the fibers were further optimized using a fiber tapering method to tailor the core diameter and re-grow the crystal grains. The resulting tapered SiGe fiber exhibited an average linear loss of ∼3 dB cm −1 across the wavelength range 1.5 − 2.5 µm, allowing for nonlinear optical characterization of this new fiber type. Measurements of the nonlinear figure of merit demonstrate the potential for higher nonlinear performance compared to the pure Si core fibers, particularly for wavelengths >2 µm, indicating that the SiGe fiber platform could open up new opportunities for mid-infrared nonlinear photonics.

1094-4087
24081-24090
Ghosh, Amar N.
e278484a-8d87-42be-a8ef-6d682e8fa9c3
Huang, Meng
79b89531-8bb9-4ab8-889a-c85b3b64d684
Hawkins, Thomas W.
e5fd9591-4506-4f0c-8845-7f2ecd64ff50
Ballato, John
3da843c5-9072-4676-a78e-70a3f3cb1a12
Gibson, Ursula J.
f1b96120-fa32-475b-b753-644457aadfc4
Peacock, Anna C.
685d924c-ef6b-401b-a0bd-acf1f8e758fc
Ghosh, Amar N.
e278484a-8d87-42be-a8ef-6d682e8fa9c3
Huang, Meng
79b89531-8bb9-4ab8-889a-c85b3b64d684
Hawkins, Thomas W.
e5fd9591-4506-4f0c-8845-7f2ecd64ff50
Ballato, John
3da843c5-9072-4676-a78e-70a3f3cb1a12
Gibson, Ursula J.
f1b96120-fa32-475b-b753-644457aadfc4
Peacock, Anna C.
685d924c-ef6b-401b-a0bd-acf1f8e758fc

Ghosh, Amar N., Huang, Meng, Hawkins, Thomas W., Ballato, John, Gibson, Ursula J. and Peacock, Anna C. (2024) Low loss polycrystalline SiGe core fibers for nonlinear photonics. Optics Express, 32 (14), 24081-24090. (doi:10.1364/OE.525754).

Record type: Article

Abstract

Polycrystalline silicon-germanium (SiGe) core fibers offer great potential as flexible platforms for microscale optoelectronic and nonlinear optical devices. Compared to silicon (Si) core fibers, the SiGe material provides the potential for higher nonlinear coefficients, extended mid-infrared wavelength coverage, and a means to tune the bandgap and index of refraction by varying the Ge composition. Here, SiGe core fibers (10 at% Ge) were fabricated using the molten core drawing method, followed by CO 2 laser irradiation to improve the homogeneity of the core. The transmission properties of the fibers were further optimized using a fiber tapering method to tailor the core diameter and re-grow the crystal grains. The resulting tapered SiGe fiber exhibited an average linear loss of ∼3 dB cm −1 across the wavelength range 1.5 − 2.5 µm, allowing for nonlinear optical characterization of this new fiber type. Measurements of the nonlinear figure of merit demonstrate the potential for higher nonlinear performance compared to the pure Si core fibers, particularly for wavelengths >2 µm, indicating that the SiGe fiber platform could open up new opportunities for mid-infrared nonlinear photonics.

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Accepted/In Press date: 4 June 2024
Published date: 17 June 2024

Identifiers

Local EPrints ID: 495467
URI: http://eprints.soton.ac.uk/id/eprint/495467
DOI: doi:10.1364/OE.525754
ISSN: 1094-4087
PURE UUID: ffd11c4e-28c4-43a0-82c9-cc7515abc691
ORCID for Amar N. Ghosh: ORCID iD orcid.org/0000-0002-5297-8321
ORCID for Meng Huang: ORCID iD orcid.org/0000-0002-5233-8519
ORCID for Anna C. Peacock: ORCID iD orcid.org/0000-0002-1940-7172

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Date deposited: 14 Nov 2024 17:37
Last modified: 15 Nov 2024 03:10

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Contributors

Author: Amar N. Ghosh ORCID iD
Author: Meng Huang ORCID iD
Author: Thomas W. Hawkins
Author: John Ballato
Author: Ursula J. Gibson
Author: Anna C. Peacock ORCID iD

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