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Optical switching beyond a million cycles of low-loss phase change material Sb2Se3

Optical switching beyond a million cycles of low-loss phase change material Sb2Se3
Optical switching beyond a million cycles of low-loss phase change material Sb2Se3
The development of the next generation of optical phase change technologies for integrated photonic and free-space platforms relies on the availability of materials that can be switched repeatedly over large volumes and with low optical losses. In recent years, the antimony-based chalcogenide phase-change material Sb2Se3 has been identified as particularly promising for a number of applications owing to good optical transparency in the near-infrared part of the spectrum and a high refractive index close to silicon. The crystallization temperature of Sb2Se3 of around 460 K allows switching to be achieved at moderate energies using optical or electrical control signals while providing sufficient data retention time for non-volatile storage. Here, we investigate the parameter space for optical switching of films of Sb2Se3 for a range of film thicknesses relevant to optical applications. By identifying optimal switching conditions, we demonstrate endurance of up to 107 cycles at reversible switching rates of 20 kHz. Our work demonstrates that the combination of intrinsic film parameters with pumping conditions is particularly critical for achieving high endurance in optical phase change applications.
Sb Se, antimony selenide, chalcogenide, optical switching, phase change materials
2159-3930
22-38
Lawson, Daniel
e26cb19c-c680-46b9-a551-f0b584694a12
Blundell, Sophie
c3a5bfbc-69ab-421c-a85a-8b5c86ad51b2
Ebert, Martin
d0f3fee7-1a7a-4f54-b9e1-cff3bbb72337
Muskens, Otto L.
2284101a-f9ef-4d79-8951-a6cda5bfc7f9
Zeimpekis, Ioannis
87379b2c-918e-4832-87d2-5f482b5186e5
Lawson, Daniel
e26cb19c-c680-46b9-a551-f0b584694a12
Blundell, Sophie
c3a5bfbc-69ab-421c-a85a-8b5c86ad51b2
Ebert, Martin
d0f3fee7-1a7a-4f54-b9e1-cff3bbb72337
Muskens, Otto L.
2284101a-f9ef-4d79-8951-a6cda5bfc7f9
Zeimpekis, Ioannis
87379b2c-918e-4832-87d2-5f482b5186e5

Lawson, Daniel, Blundell, Sophie, Ebert, Martin, Muskens, Otto L. and Zeimpekis, Ioannis (2023) Optical switching beyond a million cycles of low-loss phase change material Sb2Se3. Optical Materials Express, 14 (1), 22-38. (doi:10.1364/OME.509434).

Record type: Article

Abstract

The development of the next generation of optical phase change technologies for integrated photonic and free-space platforms relies on the availability of materials that can be switched repeatedly over large volumes and with low optical losses. In recent years, the antimony-based chalcogenide phase-change material Sb2Se3 has been identified as particularly promising for a number of applications owing to good optical transparency in the near-infrared part of the spectrum and a high refractive index close to silicon. The crystallization temperature of Sb2Se3 of around 460 K allows switching to be achieved at moderate energies using optical or electrical control signals while providing sufficient data retention time for non-volatile storage. Here, we investigate the parameter space for optical switching of films of Sb2Se3 for a range of film thicknesses relevant to optical applications. By identifying optimal switching conditions, we demonstrate endurance of up to 107 cycles at reversible switching rates of 20 kHz. Our work demonstrates that the combination of intrinsic film parameters with pumping conditions is particularly critical for achieving high endurance in optical phase change applications.

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Accepted/In Press date: 24 November 2023
Published date: 6 December 2023
Additional Information: Engineering and Physical Sciences Research Council (EP/M015130/1, EP/W022931/1).
Keywords: Sb Se, antimony selenide, chalcogenide, optical switching, phase change materials
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Identifiers

Local EPrints ID: 488318
URI: http://eprints.soton.ac.uk/id/eprint/488318
DOI: doi:10.1364/OME.509434
ISSN: 2159-3930
PURE UUID: 9a5afe58-f81e-4522-be9e-4c4240988fb3
ORCID for Daniel Lawson: ORCID iD orcid.org/0000-0002-9499-1954
ORCID for Otto L. Muskens: ORCID iD orcid.org/0000-0003-0693-5504

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Date deposited: 20 Mar 2024 17:32
Last modified: 21 Mar 2024 03:03

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Contributors

Author: Daniel Lawson ORCID iD
Author: Sophie Blundell
Author: Martin Ebert
Author: Otto L. Muskens ORCID iD
Author: Ioannis Zeimpekis

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