Magnetic, Dielectric, and Transport Properties of Bismuth Pyrostannate [Bi.sub.2]

The effect of replacing manganese ions on the structural, dielectric, transport, and magnetic properties of [Bi.sub.2][([Sn.sub.0.9][Mn.sub.0.1]).sub.2][O.sub.7] has been studied and the correlation between them has been determined. The change in the type of thermal processes and the thermopower sig...

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Published in:Physics of the solid state 2017-11, Vol.59 (11), p.2268
Main Authors: Aplesnin, S.S, Udod, L.V, Sitnikov, M.N, Molokeev, M.S, Tarasova, L.S, Yanushkevich, K.I
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Language:English
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Analysis
Bismuth
Crystal structure
Magnetic properties
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container_title Physics of the solid state
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creator Aplesnin, S.S
Udod, L.V
Sitnikov, M.N
Molokeev, M.S
Tarasova, L.S
Yanushkevich, K.I
description The effect of replacing manganese ions on the structural, dielectric, transport, and magnetic properties of [Bi.sub.2][([Sn.sub.0.9][Mn.sub.0.1]).sub.2][O.sub.7] has been studied and the correlation between them has been determined. The change in the type of thermal processes and the thermopower sign upon polymorphous transitions were detected by differential scanning calorimetry. The paramagnetic Curie temperature and the antiferromagnetic interaction were determined in the martensite and austenite phases. The type of current carriers has been established.
doi_str_mv 10.1134/S1063783417110038
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The change in the type of thermal processes and the thermopower sign upon polymorphous transitions were detected by differential scanning calorimetry. The paramagnetic Curie temperature and the antiferromagnetic interaction were determined in the martensite and austenite phases. 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subjects Analysis
Bismuth
Crystal structure
Magnetic properties
title Magnetic, Dielectric, and Transport Properties of Bismuth Pyrostannate [Bi.sub.2]
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