Magnetic and electrical transport properties in the self-doped manganite La0.9Mn0.9M0.1O3 (M=Mn, Zn and Ti)

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abstract

The magnetic and electrical transport properties of La0.9Mn0.9M0.1O3 (M=Mn, Zn and Ti) were investigated. The temperature and magnetic field dependence of electrical resistivity (rho) and dc magnetization were studied. All the compounds are found in rhombohedral structure. The excess oxygen in all three compounds was detected through iodometric titration. A modification in resistivity is observed when M=Mn is replaced by M=Zn and Ti. The high temperature resistivity above T-C follow variable range hopping model for both Zn and Ti compounds. For Zn doping, the observation of large field-cool effect and decrease in resistivity at room temperature and is assumed to be due to the implant of Mn4+ in Mn3+ matrix, which favor Mn3+/Mn4+ double exchange. The ferromagnetic behavior below T-C for the compound with M=Ti is correlated to the excess oxygen in it, which implants Mn4+ and thus incorporates ferromagnetic interactions. The substitutions lead to a reduction of T-C and magnetization. (C) 2012 Elsevier B.V. All rights reserved.

keywords

COLOSSAL MAGNETORESISTANCE

subject category

Physics

authors

De, K; Das, S; Roy, A; Amaral, VS; Majumder, S; Giri, S; Mahapatra, PK

our authors

foto Soma Das

Soma Das

foto Vitor Brás Sequeira Amaral

Vitor Brás Sequeira Amaral

Full professor

Groups

2 - Multifunctional Ferroic Ceramics and Nanostructures

acknowledgements

This work has been funded by UGC-Dr. D. S. Kothari Post-Doctoral Fellowship under the project no. F.4-2/2006(BSR)/13-307/2008(BSR). S. Das acknowledges financial support from FCT through grant no. SFRH/BPD/39262/2007. The authors thank S. Chatterjee, A. Karmakar and A. Bhattacharya for their assistance during the experiments.

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Publication Details

type
Journal Article
year
2012
journal
PHYSICA B-CONDENSED MATTER
volume
407
publisher
ELSEVIER SCIENCE BV
issn
0921-4526
issue
13
digital object identifier
10.1016/j.physb.2012.03.043
web of science article identifier
WOS:000304664500016

Journal Metrics (JCR 2019)

Journal Impact Factor
1.902
Journal Impact Factor (5 yrs)
1.591
category normalized journal percentile
41.304

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