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Tunable Infrared Devices via Ferroelectrics: Tunable Infrared Devices via Ferroelectric Domain Reconfiguration (Advanced Optical Materials 24/2018)

Ferroelectric bilayers are leveraged in concert with a metasurface to create tunable infrared devices possessing high‐speed, low‐power and latchable switching (see article number 1800862 by Thomas E. Beechem and co‐workers). Together, these characteristics highlight the potential of ferroelectrics f...

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Published in:	Advanced optical materials 2018-12, Vol.6 (24), p.n/a
Main Authors:	Beechem, Thomas E., Goldflam, Michael D., Sinclair, Michael B., Peters, David W., McDonald, Anthony E., Paisley, Elizabeth A., Kitahara, Andrew R., Drury, Daniel E., Burckel, D. Bruce, Finnegan, Patrick S., Kim, Jong‐Woo, Choi, Yongseong, Ryan, Philip J., Ihlefeld, Jon F.
Format:	Article
Language:	English
Subjects:	electrically tunable Ferroelectric domains Ferroelectric materials Ferroelectricity Ferroelectrics infrared devices Materials science Optics Phonons plasmonics Reconfiguration
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container_issue	24
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creator	Beechem, Thomas E. Goldflam, Michael D. Sinclair, Michael B. Peters, David W. McDonald, Anthony E. Paisley, Elizabeth A. Kitahara, Andrew R. Drury, Daniel E. Burckel, D. Bruce Finnegan, Patrick S. Kim, Jong‐Woo Choi, Yongseong Ryan, Philip J. Ihlefeld, Jon F.
description	Ferroelectric bilayers are leveraged in concert with a metasurface to create tunable infrared devices possessing high‐speed, low‐power and latchable switching (see article number 1800862 by Thomas E. Beechem and co‐workers). Together, these characteristics highlight the potential of ferroelectrics for dynamic infrared elements while also emphasizing the general utility of leveraging phonons to sculpt a material's infrared response.
doi_str_mv	10.1002/adom.201870094
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subjects	electrically tunable Ferroelectric domains Ferroelectric materials Ferroelectricity Ferroelectrics infrared devices Materials science Optics Phonons plasmonics Reconfiguration
title	Tunable Infrared Devices via Ferroelectrics: Tunable Infrared Devices via Ferroelectric Domain Reconfiguration (Advanced Optical Materials 24/2018)
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