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Non-magnetic B-site Impurities Induce Ferromagnetic Tendencies in CE
Manganites
release_sxx753shufgdja6i5fmpsioyr4
by
Xiao Chen,
Shuai Dong,
Kefeng. Wang,
J.-M. Liu,
Elbio Dagotto
Released
as a article
.
2009
Abstract
Using a two-orbital model and Monte Carlo simulations, we investigate the
effect of nonmagnetic B-site substitution on half-doped CE-type manganites. The
lattice defects induced by this substitution destabilize the CE phase, which
transforms into (1) the ferromagnetic (FM) metallic competing state, or (2) a
regime with short-range FM clusters, or (3) a spin-glass state, depending on
couplings and on the valence of the B-site substitution. While a C-type
antiferromagnetic state is usually associated with an average e_ g
charge density less than 0.5, the nonmagnetic B-site substitution that lowers
the e_ g charge density is still found to enhance the FM tendency in our
simulations. The present calculations are in qualitative agreement with
experiments and provide a rationalization for the complex role of nonmagnetic
B-site substitution in modulating the phase transitions in manganites.
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0812.1922v2
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