Spiral magnetism, spin flop, and pressure-induced ferromagnetism in the negative charge-transfer-gap insulator Sr2FeO4

Iron(IV) oxides are strongly correlated materials with negative charge-transfer energy (negative Delta), and exhibit peculiar electronic and magnetic properties such as topological helical spin structures in the metallic cubic perovskite SrFeO3. Here, the spin structure of the layered negative-Delta...

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Published in:Physical review. B 2022-02, Vol.105 (5), p.054417-1-054417-10
Main Authors: Adler, Peter, Reehuis, Manfred, Stuesser, Norbert, Medvedev, Sergey A., Nicklas, Michael, Peets, Darren C., Bertinshaw, Joel, Christensen, Christian Kolle, Etter, Martin, Hoser, Andreas, Schroeder, Liane, Merz, Patrick, Schnelle, Walter, Schulz, Armin, Mu, Qingge, Bessas, Dimitrios, Chumakov, Aleksandr, Jansen, Martin, Felser, Claudia
Format: Article
Language:English
Subjects:
Physics
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Summary:Iron(IV) oxides are strongly correlated materials with negative charge-transfer energy (negative Delta), and exhibit peculiar electronic and magnetic properties such as topological helical spin structures in the metallic cubic perovskite SrFeO3. Here, the spin structure of the layered negative-Delta insulator Sr2FeO4 was studied by powder neutron diffraction in zero field and magnetic fields up to 6.5 T. Below T-N = 56 K, Sr2FeO4 adopts an elliptical cycloidal spin structure with modulated magnetic moments between 1.9 and 3.5 mu(B) and a propagation vector k = (tau, tau, 0) with tau = 0.137. With increasing magnetic field the spin structure undergoes a spin-flop transition near 5 T. Synchrotron Fe-57-Mossbauer spectroscopy reveals that the spin spiral transforms to a ferromagnetic structure at pressures between 5 and 8 GPa, just in the pressure range where a Raman-active phonon nonintrinsic to the K2NiF4-type crystal structure vanishes. These results indicate an insulating ground state which is stabilized by a hidden structural distortion and differs from the charge disproportionation in other Fe(IV) oxides.
ISSN:2469-9950
2469-9969
DOI:10.1103/PhysRevB.105.054417