Size distribution effect on the magnetization and magneto-resistance in ferromagnetic nanostructured manganites

D. García; B. Alascio; D. G. Lamas; D. Niebieskikwiat; A. Caneiro; R. D. Sánchez; E. D. Cabanillas

doi:10.1016/j.jpcs.2005.07.004

Size distribution effect on the magnetization and magneto-resistance in ferromagnetic nanostructured manganites

D. García, B. Alascio, D. G. Lamas, D. Niebieskikwiat, A. Caneiro, R. D. Sánchez, E. D. Cabanillas

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

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Resumen

We present experimental data of magnetization and magneto-resistance of nanostructured La _2/3B _1/3MnO ₃ with B=Ca, Sr, which present difference between the coercive field in the magnetization loop with their corresponding maximum value in the magneto-resistance. This difference is described by a model that include, size distribution of magnetic particles, randomly oriented anisotropy axis and electronic transfer between the particles, which is mediated by spin-polarized tunneling process. Also, the model predicts that the maximum magneto-resistance can be, in the magnetic disorder state, two times larger than the experimental value. The model results can be used to estimate the size dispersion of nanoparticles in similar systems.

Idioma original	Inglés
Páginas (desde-hasta)	1687-1694
Número de páginas	8
Publicación	Journal of Physics and Chemistry of Solids
Volumen	66
N.º	10
DOI	https://doi.org/10.1016/j.jpcs.2005.07.004
Estado	Publicada - oct. 2005
Publicado de forma externa	Sí

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@article{6058176fbe3a4312ab7299d930c3d0a9,

title = "Size distribution effect on the magnetization and magneto-resistance in ferromagnetic nanostructured manganites",

abstract = "We present experimental data of magnetization and magneto-resistance of nanostructured La 2/3B 1/3MnO 3 with B=Ca, Sr, which present difference between the coercive field in the magnetization loop with their corresponding maximum value in the magneto-resistance. This difference is described by a model that include, size distribution of magnetic particles, randomly oriented anisotropy axis and electronic transfer between the particles, which is mediated by spin-polarized tunneling process. Also, the model predicts that the maximum magneto-resistance can be, in the magnetic disorder state, two times larger than the experimental value. The model results can be used to estimate the size dispersion of nanoparticles in similar systems.",

keywords = "A. Magnetic materials, B. Sol-gel growth, D. Electrical properties, D. Magnetic properties",

author = "D. Garc{\'i}a and B. Alascio and Lamas, {D. G.} and D. Niebieskikwiat and A. Caneiro and S{\'a}nchez, {R. D.} and Cabanillas, {E. D.}",

note = "Funding Information: This work was partially supported by ANPCyT (Argentina) through the PICT 03-05266, CONICET (Argentina) and Fundaci{\'o}n Antorchas (Argentina).",

year = "2005",

month = oct,

doi = "10.1016/j.jpcs.2005.07.004",

language = "Ingl{\'e}s",

volume = "66",

pages = "1687--1694",

journal = "Journal of Physics and Chemistry of Solids",

issn = "0022-3697",

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TY - JOUR

T1 - Size distribution effect on the magnetization and magneto-resistance in ferromagnetic nanostructured manganites

AU - García, D.

AU - Alascio, B.

AU - Lamas, D. G.

AU - Niebieskikwiat, D.

AU - Caneiro, A.

AU - Sánchez, R. D.

AU - Cabanillas, E. D.

N1 - Funding Information: This work was partially supported by ANPCyT (Argentina) through the PICT 03-05266, CONICET (Argentina) and Fundación Antorchas (Argentina).

PY - 2005/10

Y1 - 2005/10

N2 - We present experimental data of magnetization and magneto-resistance of nanostructured La 2/3B 1/3MnO 3 with B=Ca, Sr, which present difference between the coercive field in the magnetization loop with their corresponding maximum value in the magneto-resistance. This difference is described by a model that include, size distribution of magnetic particles, randomly oriented anisotropy axis and electronic transfer between the particles, which is mediated by spin-polarized tunneling process. Also, the model predicts that the maximum magneto-resistance can be, in the magnetic disorder state, two times larger than the experimental value. The model results can be used to estimate the size dispersion of nanoparticles in similar systems.

AB - We present experimental data of magnetization and magneto-resistance of nanostructured La 2/3B 1/3MnO 3 with B=Ca, Sr, which present difference between the coercive field in the magnetization loop with their corresponding maximum value in the magneto-resistance. This difference is described by a model that include, size distribution of magnetic particles, randomly oriented anisotropy axis and electronic transfer between the particles, which is mediated by spin-polarized tunneling process. Also, the model predicts that the maximum magneto-resistance can be, in the magnetic disorder state, two times larger than the experimental value. The model results can be used to estimate the size dispersion of nanoparticles in similar systems.

KW - A. Magnetic materials

KW - B. Sol-gel growth

KW - D. Electrical properties

KW - D. Magnetic properties

UR - http://www.scopus.com/inward/record.url?scp=28944451688&partnerID=8YFLogxK

U2 - 10.1016/j.jpcs.2005.07.004

DO - 10.1016/j.jpcs.2005.07.004

M3 - Artículo

AN - SCOPUS:28944451688

SN - 0022-3697

VL - 66

SP - 1687

EP - 1694

JO - Journal of Physics and Chemistry of Solids

JF - Journal of Physics and Chemistry of Solids

IS - 10

ER -

Size distribution effect on the magnetization and magneto-resistance in ferromagnetic nanostructured manganites

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