Short-range correlations in magnetite above the Verwey temperature

Bosak, Alexey; Chernyshov, Dmitry; Hoesch, Moritz; Piekarz, Przemysław; Tacon, Mathieu Le; Krisch, Michael; Kozłowski, Andrzej; Oleś, Andrzej; Parliński, Krzysztof

doi:10.1103/PhysRevX.4.011040

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Short-range correlations in magnetite above the Verwey temperature

2014

journal article

article

10.1103/PhysRevX.4.011040

Journal

Physical Review. X

45

Author

Bosak Alexey

Chernyshov Dmitry

Hoesch Moritz

Piekarz Przemysław

Tacon Mathieu Le

Krisch Michael

Kozłowski Andrzej

Oleś Andrzej

Parliński Krzysztof

Volume

4

Issue

1

Article ID

011040

eISSN

2160-3308

Keywords in English

condensed matter physics

materials science

strongly correlated materials

Language

English

Container language

English

Abstract in English

Magnetite, , is the first magnetic material discovered and utilized by mankind in Ancient Greece, yet it still attracts attention due to its puzzling properties. This is largely due to the quest for a full and coherent understanding of the Verwey transition that occurs at = 124 K and is associated with a drop of electric conductivity and a complex structural phase transition. A recent detailed analysis of the structure, based on single crystal diffraction, suggests that the electron localization pattern contains linear three-Fe-site units, the so-called trimerons. Here we show that whatever the electron localization pattern is, it partially survives up to room temperature as short-range correlations in the high-temperature cubic phase, easily discernible by diffuse scattering. Additionally, electronic structure calculations reveal that characteristic features in these diffuse scattering patterns can be correlated with the Fermi surface topology.

cris.lastimport.wos	2024-04-10T02:08:59Z
dc.abstract.en	Magnetite, $Fe_{3}O_{4}$, is the first magnetic material discovered and utilized by mankind in Ancient Greece, yet it still attracts attention due to its puzzling properties. This is largely due to the quest for a full and coherent understanding of the Verwey transition that occurs at $T_{V}$ = 124 K and is associated with a drop of electric conductivity and a complex structural phase transition. A recent detailed analysis of the structure, based on single crystal diffraction, suggests that the electron localization pattern contains linear three-Fe-site units, the so-called trimerons. Here we show that whatever the electron localization pattern is, it partially survives up to room temperature as short-range correlations in the high-temperature cubic phase, easily discernible by diffuse scattering. Additionally, $\it{ab initio}$ electronic structure calculations reveal that characteristic features in these diffuse scattering patterns can be correlated with the Fermi surface topology.	pl
dc.affiliation	Wydział Fizyki, Astronomii i Informatyki Stosowanej : Instytut Fizyki im. Mariana Smoluchowskiego	pl
dc.contributor.author	Bosak, Alexey	pl
dc.contributor.author	Chernyshov, Dmitry	pl
dc.contributor.author	Hoesch, Moritz	pl
dc.contributor.author	Piekarz, Przemysław	pl
dc.contributor.author	Tacon, Mathieu Le	pl
dc.contributor.author	Krisch, Michael	pl
dc.contributor.author	Kozłowski, Andrzej	pl
dc.contributor.author	Oleś, Andrzej - 100024	pl
dc.contributor.author	Parliński, Krzysztof	pl
dc.date.accessioned	2015-02-17T15:35:46Z
dc.date.available	2015-02-17T15:35:46Z
dc.date.issued	2014	pl
dc.date.openaccess	0
dc.description.accesstime	w momencie opublikowania
dc.description.number	1	pl
dc.description.publication	0,5	pl
dc.description.version	ostateczna wersja wydawcy
dc.description.volume	4	pl
dc.identifier.articleid	011040	pl
dc.identifier.doi	10.1103/PhysRevX.4.011040	pl
dc.identifier.eissn	2160-3308	pl
dc.identifier.project	ROD UJ / P	pl
dc.identifier.uri	http://ruj.uj.edu.pl/xmlui/handle/item/3146
dc.language	eng	pl
dc.language.container	eng	pl
dc.rights	Udzielam licencji. Uznanie autorstwa 3.0 Polska	*
dc.rights.licence	CC-BY
dc.rights.uri	http://creativecommons.org/licenses/by/3.0/legalcode	*
dc.share.type	otwarte czasopismo
dc.subject.en	condensed matter physics	pl
dc.subject.en	materials science	pl
dc.subject.en	strongly correlated materials	pl
dc.subtype	Article	pl
dc.title	Short-range correlations in magnetite above the Verwey temperature	pl
dc.title.journal	Physical Review. X	pl
dc.type	JournalArticle	pl
dspace.entity.type	Publication

cris.lastimport.wos

2024-04-10T02:08:59Z

dc.abstract.enpl

Magnetite, $Fe_{3}O_{4}$, is the first magnetic material discovered and utilized by mankind in Ancient Greece, yet it still attracts attention due to its puzzling properties. This is largely due to the quest for a full and coherent understanding of the Verwey transition that occurs at $T_{V}$ = 124 K and is associated with a drop of electric conductivity and a complex structural phase transition. A recent detailed analysis of the structure, based on single crystal diffraction, suggests that the electron localization pattern contains linear three-Fe-site units, the so-called trimerons. Here we show that whatever the electron localization pattern is, it partially survives up to room temperature as short-range correlations in the high-temperature cubic phase, easily discernible by diffuse scattering. Additionally, $\it{ab initio}$ electronic structure calculations reveal that characteristic features in these diffuse scattering patterns can be correlated with the Fermi surface topology.

dc.affiliationpl

Wydział Fizyki, Astronomii i Informatyki Stosowanej : Instytut Fizyki im. Mariana Smoluchowskiego

dc.contributor.authorpl

Bosak, Alexey

dc.contributor.authorpl

Chernyshov, Dmitry

dc.contributor.authorpl

Hoesch, Moritz

dc.contributor.authorpl

Piekarz, Przemysław

dc.contributor.authorpl

Tacon, Mathieu Le

dc.contributor.authorpl

Krisch, Michael

dc.contributor.authorpl

Kozłowski, Andrzej

dc.contributor.authorpl

Oleś, Andrzej - 100024

dc.contributor.authorpl

Parliński, Krzysztof

dc.date.accessioned

2015-02-17T15:35:46Z

dc.date.available

2015-02-17T15:35:46Z

dc.date.issuedpl

2014

dc.date.openaccess

0

dc.description.accesstime

w momencie opublikowania

dc.description.numberpl

1

dc.description.publicationpl

0,5

dc.description.version

ostateczna wersja wydawcy

dc.description.volumepl

4

dc.identifier.articleidpl

011040

dc.identifier.doipl

10.1103/PhysRevX.4.011040

dc.identifier.eissnpl

2160-3308

dc.identifier.projectpl

ROD UJ / P

dc.identifier.uri

http://ruj.uj.edu.pl/xmlui/handle/item/3146

dc.languagepl

eng

dc.language.containerpl

eng

dc.rights*

Udzielam licencji. Uznanie autorstwa 3.0 Polska

dc.rights.licence

CC-BY

dc.rights.uri*

http://creativecommons.org/licenses/by/3.0/legalcode

dc.share.type

otwarte czasopismo

dc.subject.enpl

condensed matter physics

dc.subject.enpl

materials science

dc.subject.enpl

strongly correlated materials

dc.subtypepl

Article

dc.titlepl

Short-range correlations in magnetite above the Verwey temperature

dc.title.journalpl

Physical Review. X

dc.typepl

JournalArticle

dspace.entity.type

Publication

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