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Literature DB >> 19113492

Charge and orbital correlations at and above the Verwey phase transition in magnetite.

J E Lorenzo¹, C Mazzoli, N Jaouen, C Detlefs, D Mannix, S Grenier, Y Joly, C Marin.

Abstract

The subtle interplay among electronic degrees of freedom (charge and orbital orderings), spin and lattice distortion that conspire at the Verwey transition in magnetite (Fe3O4) is still a matter of controversy. Here, we provide compelling evidence that these electronic orderings are manifested as a continuous phase transition at the temperature where a spin reorientation takes place at around 130 K, i.e., well above TV approximately 121 K. The Verwey transition seems to leave the orbital ordering unaffected whereas the charge ordering development appears to be quenched at this temperature and the temperature dependence below TV is controlled by the lattice distortions. Finally, we show that the orbital ordering does not reach true long range (disorder), and the correlation length along the c-direction is limited to 100 angstroms.

Entities: Chemical

Mesh：

Substances：
Ferrosoferric Oxide

Year: 2008 PMID： 19113492 DOI： 10.1103/PhysRevLett.101.226401

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

5 in total

1. Charge order and three-site distortions in the Verwey structure of magnetite.

Authors: Mark S Senn; Jon P Wright; J Paul Attfield
Journal: Nature Date: 2011-12-21 Impact factor: 49.962

2. Speed limit of the insulator-metal transition in magnetite.

Authors: S de Jong; R Kukreja; C Trabant; N Pontius; C F Chang; T Kachel; M Beye; F Sorgenfrei; C H Back; B Bräuer; W F Schlotter; J J Turner; O Krupin; M Doehler; D Zhu; M A Hossain; A O Scherz; D Fausti; F Novelli; M Esposito; W S Lee; Y D Chuang; D H Lu; R G Moore; M Yi; M Trigo; P Kirchmann; L Pathey; M S Golden; M Buchholz; P Metcalf; F Parmigiani; W Wurth; A Föhlisch; C Schüßler-Langeheine; H A Dürr
Journal: Nat Mater Date: 2013-07-28 Impact factor: 43.841

Charge and orbital correlations at and above the Verwey phase transition in magnetite.

1. Charge order and three-site distortions in the Verwey structure of magnetite.

2. Speed limit of the insulator-metal transition in magnetite.

3. The dipole moment of the spin density as a local indicator for phase transitions.

4. Biaxial strain effect induced electronic structure alternation and trimeron recombination in Fe₃O₄.

5. Heat capacity signature of frustrated trimerons in magnetite.

Charge and orbital correlations at and above the Verwey phase transition in magnetite.

1. Charge order and three-site distortions in the Verwey structure of magnetite.

2. Speed limit of the insulator-metal transition in magnetite.

3. The dipole moment of the spin density as a local indicator for phase transitions.

4. Biaxial strain effect induced electronic structure alternation and trimeron recombination in Fe3O4.

5. Heat capacity signature of frustrated trimerons in magnetite.

4. Biaxial strain effect induced electronic structure alternation and trimeron recombination in Fe₃O₄.