Enviar artigo por via de e-mail μSR study of Eu0.8Ce0.2Mn2O5 and EuMn2O5 multiferroics
- Autores: Vorob’ev S.I.1, Andrievskii D.S.1, Barsov S.G.1, Getalov A.L.1, Golovenchits E.I.2, Komarov E.N.1, Kotov S.A.1, Mishchenko A.Y.3, Sanina V.A.2, Shcherbakov G.V.1
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Afiliações:
- Petersburg Nuclear Physics Institute
- Ioffe Physical–Technical Institute, Institute
- National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)
- Edição: Volume 123, Nº 6 (2016)
- Páginas: 1017-1024
- Seção: Order, Disorder, and Phase Transition in Condensed System
- URL: https://journals.rcsi.science/1063-7761/article/view/191182
- DOI: https://doi.org/10.1134/S1063776116130215
- ID: 191182
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Resumo
A comparative μSR study of ceramic samples of the EuMn2O5 and Eu0.8Ce0.2Mn2O5 multiferroics is performed in the temperature range from 15 to 300 K. It is found that the Ce doping of the EuMn2O5 sample slightly reduces the temperature of the magnetic phase transition from TN = 45 K for the EuMn2O5 sample to TN = 42.5 K for the Eu0.8Ce0.2Mn2O5 sample. Below the temperature TN for both samples, there are two types of localization of a thermalized muon with different temperature dependences of the precession frequency of the magnetic moment of the muon in an internal magnetic field. The higher frequency in both samples refers to the initial antiferromagnetic matrix. The behavior of this frequency in Eu0.8Ce0.2Mn2O5 follows the Curie–Weiss law with the exponent β = 0.29 ± 0.02, which differs from the value β = 0.39 standard for 3D Heisenberg magnetics and is observed in EuMn2O5, because of the strong frustration of the doped sample. The temperature-independent low frequency is due to the presence of Mn3+–Mn4+ ferromagnetic pairs located along the b axis of the antiferromagnetic matrix and in the regions of phase separation, which contain such ion pairs and eg electrons recharging them. In both samples, polarization losses are the same (about 20%) and are associated with the formation of Mn4+–Mn4+ + Mu complexes near Mn3+–Mn4+ ferromagnetic pairs. In the temperature interval from 25 to 45 K, the separation of the Eu0.8Ce0.2Mn2O5 structure into two fractions where the relaxation rates of polarization of muons differ by an order of magnitude is revealed. This effect is due to a change in the state of regions of phase separation (1D superlattices) at the indicated temperatures. Such effect in EuMn2O5 is significantly weaker.
Sobre autores
S. Vorob’ev
Petersburg Nuclear Physics Institute
Autor responsável pela correspondência
Email: vsiloa@pnpi.spb.ru
Rússia, Gatchina, Leningradskaya oblast, 188300
D. Andrievskii
Petersburg Nuclear Physics Institute
Email: vsiloa@pnpi.spb.ru
Rússia, Gatchina, Leningradskaya oblast, 188300
S. Barsov
Petersburg Nuclear Physics Institute
Email: vsiloa@pnpi.spb.ru
Rússia, Gatchina, Leningradskaya oblast, 188300
A. Getalov
Petersburg Nuclear Physics Institute
Email: vsiloa@pnpi.spb.ru
Rússia, Gatchina, Leningradskaya oblast, 188300
E. Golovenchits
Ioffe Physical–Technical Institute, Institute
Email: vsiloa@pnpi.spb.ru
Rússia, St. Petersburg, 194021
E. Komarov
Petersburg Nuclear Physics Institute
Email: vsiloa@pnpi.spb.ru
Rússia, Gatchina, Leningradskaya oblast, 188300
S. Kotov
Petersburg Nuclear Physics Institute
Email: vsiloa@pnpi.spb.ru
Rússia, Gatchina, Leningradskaya oblast, 188300
A. Mishchenko
National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)
Email: vsiloa@pnpi.spb.ru
Rússia, Moscow, 115409
V. Sanina
Ioffe Physical–Technical Institute, Institute
Email: vsiloa@pnpi.spb.ru
Rússia, St. Petersburg, 194021
G. Shcherbakov
Petersburg Nuclear Physics Institute
Email: vsiloa@pnpi.spb.ru
Rússia, Gatchina, Leningradskaya oblast, 188300
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