Direct evidence of electronic ferroelectricity in YbFe2O4 using neutron diffraction and nonlinear spectroscopy

Direct evidence of electronic ferroelectricity in YbFe2O4 using neutron diffraction and nonlinear spectroscopy

Abstract We report the first observation of room temperature spontaneous electric polarization in an electronic ferroelectric material, a YbFe2O4 single crystal. The observation was based on second harmonic generation (SHG), a nonlinear optical process. Tensor analysis of the SHG signal revealed tha...

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Main Authors: K. Fujiwara, Y. Fukada, Y. Okuda, R. Seimiya, N. Ikeda, K. Yokoyama, H. Yu, S. Koshihara, Y. Okimoto
Format: Article
Language:English
Published: Nature Publishing Group 2021-02-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-83655-6
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spelling doaj-7ff048b801974d1c812cd62791ad74ce2021-02-21T12:31:26ZengNature Publishing GroupScientific Reports2045-23222021-02-011111710.1038/s41598-021-83655-6Direct evidence of electronic ferroelectricity in YbFe2O4 using neutron diffraction and nonlinear spectroscopyK. Fujiwara0Y. Fukada1Y. Okuda2R. Seimiya3N. Ikeda4K. Yokoyama5H. Yu6S. Koshihara7Y. Okimoto8Graduate School of Natural Science and Technology, Okayama UniversityGraduate School of Natural Science and Technology, Okayama UniversityGraduate School of Natural Science and Technology, Okayama UniversityGraduate School of Natural Science and Technology, Okayama UniversityGraduate School of Natural Science and Technology, Okayama UniversityDepartment of Chemistry, Tokyo Institute of TechnologyDepartment of Chemistry, Tokyo Institute of TechnologyDepartment of Chemistry, Tokyo Institute of TechnologyDepartment of Chemistry, Tokyo Institute of TechnologyAbstract We report the first observation of room temperature spontaneous electric polarization in an electronic ferroelectric material, a YbFe2O4 single crystal. The observation was based on second harmonic generation (SHG), a nonlinear optical process. Tensor analysis of the SHG signal revealed that this material has a polar charge superstructure with Cm symmetry. This result settles the long-term discussion on the uncertainty about electronic ferroelectric properties, including the charge order structure. We present a complete picture of the polar charge ordering of this material via consistent results from two different characterization methods. The SHG signal shows the same temperature dependence as the superlattice signal observed in neutron diffraction experiments. These results prove ferroelectric coupling to electron ordering in YbFe2O4, which results in electronic ferroelectricity which is enabled by the real space ordering of iron cations with different valences. The existence of electronic ferroelectricity holds promise for future electronics technologies where devices run a thousand times faster than frequency of the present CPU (a few gigahertz) embedded in smartphones, etc.https://doi.org/10.1038/s41598-021-83655-6
collection DOAJ
language English
format Article
sources DOAJ
author K. Fujiwara
Y. Fukada
Y. Okuda
R. Seimiya
N. Ikeda
K. Yokoyama
H. Yu
S. Koshihara
Y. Okimoto
spellingShingle K. Fujiwara
Y. Fukada
Y. Okuda
R. Seimiya
N. Ikeda
K. Yokoyama
H. Yu
S. Koshihara
Y. Okimoto
Direct evidence of electronic ferroelectricity in YbFe2O4 using neutron diffraction and nonlinear spectroscopy
Scientific Reports
author_facet K. Fujiwara
Y. Fukada
Y. Okuda
R. Seimiya
N. Ikeda
K. Yokoyama
H. Yu
S. Koshihara
Y. Okimoto
author_sort K. Fujiwara
title Direct evidence of electronic ferroelectricity in YbFe2O4 using neutron diffraction and nonlinear spectroscopy
title_short Direct evidence of electronic ferroelectricity in YbFe2O4 using neutron diffraction and nonlinear spectroscopy
title_full Direct evidence of electronic ferroelectricity in YbFe2O4 using neutron diffraction and nonlinear spectroscopy
title_fullStr Direct evidence of electronic ferroelectricity in YbFe2O4 using neutron diffraction and nonlinear spectroscopy
title_full_unstemmed Direct evidence of electronic ferroelectricity in YbFe2O4 using neutron diffraction and nonlinear spectroscopy
title_sort direct evidence of electronic ferroelectricity in ybfe2o4 using neutron diffraction and nonlinear spectroscopy
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-02-01
description Abstract We report the first observation of room temperature spontaneous electric polarization in an electronic ferroelectric material, a YbFe2O4 single crystal. The observation was based on second harmonic generation (SHG), a nonlinear optical process. Tensor analysis of the SHG signal revealed that this material has a polar charge superstructure with Cm symmetry. This result settles the long-term discussion on the uncertainty about electronic ferroelectric properties, including the charge order structure. We present a complete picture of the polar charge ordering of this material via consistent results from two different characterization methods. The SHG signal shows the same temperature dependence as the superlattice signal observed in neutron diffraction experiments. These results prove ferroelectric coupling to electron ordering in YbFe2O4, which results in electronic ferroelectricity which is enabled by the real space ordering of iron cations with different valences. The existence of electronic ferroelectricity holds promise for future electronics technologies where devices run a thousand times faster than frequency of the present CPU (a few gigahertz) embedded in smartphones, etc.
url https://doi.org/10.1038/s41598-021-83655-6
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