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Time-resolved reversible optical switching of the ultralow-loss phase change material Sb2Se3

Time-resolved reversible optical switching of the ultralow-loss phase change material Sb2Se3
Time-resolved reversible optical switching of the ultralow-loss phase change material Sb2Se3
The antimony-based chalcogenide Sb2Se3 is a rapidly emerging material for photonic phase change applications owing to its ultra-low optical losses at telecommunication wavelengths in both crystalline and amorphous phases. Here, we investigate the dynamical response of these materials from nanoseconds to milliseconds under optical pumping conditions. We apply bichromatic pump-probe transient reflectance spectroscopy which is a widely used method to study the optical performance of optical phase change materials during phase transitions induced by direct pulsed optical switching. Amorphous regions of several hundreds of nanometers in diameter are induced by pulsed excitation of the material using a wavelength of 488 nm above the absorption edge, while the transient reflectance is probed using a continuous wave 980 nm laser, well below the absorption edge of the material. We find vitrification dynamics in the nanosecond range and observe crystallization on millisecond time scales. These results show a large five-orders of magnitude difference in time scales between crystallization and vitrification dynamics in this material. The insights provided in this work are fundamental for the optimisation of the material family and its employment in photonic applications.
Sb Se, antimony selenide, chalcogenide, optical switching, phase change materials
2040-8978
Lawson, Daniel
e26cb19c-c680-46b9-a551-f0b584694a12
Hewak, Daniel W.
87c80070-c101-4f7a-914f-4cc3131e3db0
Muskens, Otto L
2284101a-f9ef-4d79-8951-a6cda5bfc7f9
Zeimpekis, Ioannis
a2c354ec-3891-497c-adac-89b3a5d96af0
Lawson, Daniel
e26cb19c-c680-46b9-a551-f0b584694a12
Hewak, Daniel W.
87c80070-c101-4f7a-914f-4cc3131e3db0
Muskens, Otto L
2284101a-f9ef-4d79-8951-a6cda5bfc7f9
Zeimpekis, Ioannis
a2c354ec-3891-497c-adac-89b3a5d96af0

Lawson, Daniel, Hewak, Daniel W., Muskens, Otto L and Zeimpekis, Ioannis (2022) Time-resolved reversible optical switching of the ultralow-loss phase change material Sb2Se3. Journal of Optics, 24 (6), [064013]. (doi:10.1088/2040-8986/ac5ece).

Record type: Article

Abstract

The antimony-based chalcogenide Sb2Se3 is a rapidly emerging material for photonic phase change applications owing to its ultra-low optical losses at telecommunication wavelengths in both crystalline and amorphous phases. Here, we investigate the dynamical response of these materials from nanoseconds to milliseconds under optical pumping conditions. We apply bichromatic pump-probe transient reflectance spectroscopy which is a widely used method to study the optical performance of optical phase change materials during phase transitions induced by direct pulsed optical switching. Amorphous regions of several hundreds of nanometers in diameter are induced by pulsed excitation of the material using a wavelength of 488 nm above the absorption edge, while the transient reflectance is probed using a continuous wave 980 nm laser, well below the absorption edge of the material. We find vitrification dynamics in the nanosecond range and observe crystallization on millisecond time scales. These results show a large five-orders of magnitude difference in time scales between crystallization and vitrification dynamics in this material. The insights provided in this work are fundamental for the optimisation of the material family and its employment in photonic applications.

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Accepted/In Press date: 17 March 2022
e-pub ahead of print date: 10 May 2022
Published date: 1 June 2022
Additional Information: This work was supported by the Engineering and Physical Sciences Research Council (EPSRC) in part through Grant EP/M015130/1, Manufacturing and Application of Next Generation Chalcogenides..
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Keywords: Sb Se, antimony selenide, chalcogenide, optical switching, phase change materials
Learn more about Zepler Institute for Photonics and Nanoelectronics research Learn more about Institute for Life Sciences research Learn more about Institute for Life Sciences research Learn more about School of Physics and Astronomy research

Identifiers

Local EPrints ID: 467619
URI: http://eprints.soton.ac.uk/id/eprint/467619
DOI: doi:10.1088/2040-8986/ac5ece
ISSN: 2040-8978
PURE UUID: 2d51a77b-b4d2-4a37-a45d-a405fdfaf11f
ORCID for Daniel Lawson: ORCID iD orcid.org/0000-0002-9499-1954
ORCID for Daniel W. Hewak: ORCID iD orcid.org/0000-0002-2093-5773
ORCID for Otto L Muskens: ORCID iD orcid.org/0000-0003-0693-5504
ORCID for Ioannis Zeimpekis: ORCID iD orcid.org/0000-0002-7455-1599

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Date deposited: 15 Jul 2022 18:23
Last modified: 20 Mar 2024 02:59

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Contributors

Author: Daniel Lawson ORCID iD
Author: Daniel W. Hewak ORCID iD
Author: Otto L Muskens ORCID iD
Author: Ioannis Zeimpekis ORCID iD

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