Melting of the orbital order in LaMnO3 probed by NMR

Melting of the orbital order in LaMnO3 probed by NMR

The Mn spin correlations were studied near the O'-O phase transition at T{JT} = 750 K, up to 950 K with 17O and 139La NMR in a stoichiometric LaMnO3 crystalline sample. The measured local hyperfine fields originate from the electron density transfered from the eg- and t2g-orbitals to the 2s(O)...

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Veröffentlicht in:arXiv.org 2013-03
Hauptverfasser: Trokiner, A, Verkhovskii, S, Gerashenko, A, Volkova, Z, Anikeenok, O, Mikhalev, K, Eremin, M
Format: Artikel
Sprache:eng
Schlagworte:
Antiferromagnetism
Correlation analysis
Electron density
Ferromagnetism
Hyperfine structure
Jahn-Teller effect
Lanthanum compounds
NMR
Nuclear magnetic resonance
Orbitals
Phase transitions
Physics - Strongly Correlated Electrons
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Zusammenfassung:The Mn spin correlations were studied near the O'-O phase transition at T{JT} = 750 K, up to 950 K with 17O and 139La NMR in a stoichiometric LaMnO3 crystalline sample. The measured local hyperfine fields originate from the electron density transfered from the eg- and t2g-orbitals to the 2s(O) and 6s(La) orbits, respectively. By probing the oxygen nuclei, we show that the correlations of the Mn spins are ferromagnetic in the ab-plane and robust up to T{JT} whereas along the c-axis, they are antiferromagnetic and start to melt below T{JT}, at about 550 K. Above T{JT} the ferromagnetic Mn-Mn exchange interaction is found isotropic. The room temperature orbital mixing angle, {\phi}nmr = 109+-1.5{\deg}, of the eg ground state is close to the reported value which was deduced from structural data on Jahn-Teller distorted MnO6 octahedra. For T > T{JT} LaMnO3 can be described in terms of non-polarized eg-orbitals since both eg-orbitals are equally occupied.
ISSN:2331-8422
DOI:10.48550/arxiv.1303.3112