Site-specific spectroscopic measurement of spin and charge in (LuFeO3) m /(LuFe2O4)1 multiferroic superlattices

Site-specific spectroscopic measurement of spin and charge in (LuFeO3) m /(LuFe2O4)1 multiferroic superlattices

Understanding the inner workings of complex magnetoelectric multiferroics remains a challenge, as macroscopic techniques characterize average responses rather than the role of individual iron centers. Here, the authors reveal the origin of high-temperature magnetism in multiferroic superlattices.

Bibliographic Details
Main Authors: Shiyu Fan, Hena Das, Alejandro Rébola, Kevin A. Smith, Julia Mundy, Charles Brooks, Megan E. Holtz, David A. Muller, Craig J. Fennie, Ramamoorthy Ramesh, Darrell G. Schlom, Stephen McGill, Janice L. Musfeldt
Format: Article
Language:English
Published: Nature Publishing Group 2020-11-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-020-19285-9
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spelling doaj-f6feb3c001214a4ca2434247ad3574bb2021-05-11T09:18:46ZengNature Publishing GroupNature Communications2041-17232020-11-011111910.1038/s41467-020-19285-9Site-specific spectroscopic measurement of spin and charge in (LuFeO3) m /(LuFe2O4)1 multiferroic superlatticesShiyu Fan0Hena Das1Alejandro Rébola2Kevin A. Smith3Julia Mundy4Charles Brooks5Megan E. Holtz6David A. Muller7Craig J. Fennie8Ramamoorthy Ramesh9Darrell G. Schlom10Stephen McGill11Janice L. Musfeldt12Department of Physics and Astronomy, University of TennesseeSchool of Applied and Engineering Physics, Cornell UniversityInstituto de Física Rosario-CONICET, Boulevard 27 de Febrero 210 bisDepartment of Chemistry, University of TennesseeSchool of Applied and Engineering Physics, Cornell UniversityDepartment of Materials Science and Engineering, Cornell UniversitySchool of Applied and Engineering Physics, Cornell UniversitySchool of Applied and Engineering Physics, Cornell UniversitySchool of Applied and Engineering Physics, Cornell UniversityDepartment of Materials Science and Engineering, University of CaliforniaDepartment of Materials Science and Engineering, Cornell UniversityNational High Magnetic Field LaboratoryDepartment of Physics and Astronomy, University of TennesseeUnderstanding the inner workings of complex magnetoelectric multiferroics remains a challenge, as macroscopic techniques characterize average responses rather than the role of individual iron centers. Here, the authors reveal the origin of high-temperature magnetism in multiferroic superlattices.https://doi.org/10.1038/s41467-020-19285-9
collection DOAJ
language English
format Article
sources DOAJ
author Shiyu Fan
Hena Das
Alejandro Rébola
Kevin A. Smith
Julia Mundy
Charles Brooks
Megan E. Holtz
David A. Muller
Craig J. Fennie
Ramamoorthy Ramesh
Darrell G. Schlom
Stephen McGill
Janice L. Musfeldt
spellingShingle Shiyu Fan
Hena Das
Alejandro Rébola
Kevin A. Smith
Julia Mundy
Charles Brooks
Megan E. Holtz
David A. Muller
Craig J. Fennie
Ramamoorthy Ramesh
Darrell G. Schlom
Stephen McGill
Janice L. Musfeldt
Site-specific spectroscopic measurement of spin and charge in (LuFeO3) m /(LuFe2O4)1 multiferroic superlattices
Nature Communications
author_facet Shiyu Fan
Hena Das
Alejandro Rébola
Kevin A. Smith
Julia Mundy
Charles Brooks
Megan E. Holtz
David A. Muller
Craig J. Fennie
Ramamoorthy Ramesh
Darrell G. Schlom
Stephen McGill
Janice L. Musfeldt
author_sort Shiyu Fan
title Site-specific spectroscopic measurement of spin and charge in (LuFeO3) m /(LuFe2O4)1 multiferroic superlattices
title_short Site-specific spectroscopic measurement of spin and charge in (LuFeO3) m /(LuFe2O4)1 multiferroic superlattices
title_full Site-specific spectroscopic measurement of spin and charge in (LuFeO3) m /(LuFe2O4)1 multiferroic superlattices
title_fullStr Site-specific spectroscopic measurement of spin and charge in (LuFeO3) m /(LuFe2O4)1 multiferroic superlattices
title_full_unstemmed Site-specific spectroscopic measurement of spin and charge in (LuFeO3) m /(LuFe2O4)1 multiferroic superlattices
title_sort site-specific spectroscopic measurement of spin and charge in (lufeo3) m /(lufe2o4)1 multiferroic superlattices
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2020-11-01
description Understanding the inner workings of complex magnetoelectric multiferroics remains a challenge, as macroscopic techniques characterize average responses rather than the role of individual iron centers. Here, the authors reveal the origin of high-temperature magnetism in multiferroic superlattices.
url https://doi.org/10.1038/s41467-020-19285-9
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