Coercivity extrema in melt-spun CuCo ribbons: Effects of the magnetic moment distribution

Ferrari, Elena; Nunes, Wallace C.; Novak, Miguel A.

doi:10.1063/1.371161

Cited by 14 publications

(8 citation statements)

References 23 publications

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“…Similar unusual H C – T relation is also found in the studies of M. A Novak's group on CoCu alloys where the H C ( T ) has a sharp decrease at first followed by an increase and a maximum around 100–200 K . According to their studies, this behavior is attributed to particle interactions, size distribution and a temperature‐dependent average blocking temperature . As the coercive fields of our samples are quite small, the superparamagnetism may indeed exist in them.…”

Section: Resultssupporting

confidence: 88%

“…We attribute the new blocking temperature

T_{normalB}^{'}

to the superparamagnetism in Sr 2 Ru 1 −x Co x O 4 , which coexists with the ferrimagnetism embedded in incommensurate AFM fluctuation. In the size distribution model, the unusual behavior of H C ( T ) is explained as follows: H C first decreases with the arising temperature, for numerous small granules are gradually unblocked; then, on account of the larger thermal fluctuations of the superparamagnetic moments, H C increases with temperature; at last, H C fades away for the granules are also unblocked . Similarly, we construct a phase separated state picture for Sr 2 Ru 1 −x Co x O 4 when x = 0.10–0.25 like this to interpret the corresponding abnormal H C – T relation: initially, the coercive field gradually decreases when we rise temperature from 5 K to around

T_{normalB}^{'}

(10 K for Sr 2 Ru 0.85 Co 0.15 O 4 ), in which the superparamagnetic granules are gradually unblocked and ferrimagnetism is gradually weakened; then, coercive field increases due to the lager thermal fluctuations of the superparamagnetic moments, which covers the decrease in H C caused by weakening ferrimagnetism, and at 50 K H C becomes larger than that at 5 K; finally, the coercive field gradually vanishes above T B (75 K for Sr 2 Ru 0.85 Co 0.15 O 4 ) where the incommensurate fluctuations are also unblocked.…”

Section: Resultsmentioning

confidence: 99%

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Magnetism and Transport Properties of Sr₂Ru_1−xCo_xO₄ with x ≤ 0.25

Zhou

Gao

et al. 2016

J. Am. Ceram. Soc.

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Single‐phase polycrystalline Sr2Ru1−xCoxO4 are successfully synthesized by conventional solid‐state method with doping content up to x = 0.25. Ferrimagnetism develops among the incommensurate antiferromagnetic fluctuations in the doped compounds. An abnormal coercivity–temperature relation at a high doping level (x > 0.10), in which the samples have smaller coercive field at low temperature than that at high temperature, i.e., HC(5 K) < HC(50 K), is observed. The Curie–Weiss temperature shows the negative value for all samples, and the susceptibility increases with Co doping content x. The exchange bias effect is detected in magnetic hysteresis loops. A three‐dimensional transport property has been derived based on the variable rang hopping theory, indicating a thermally assisted hopping of electrons between the localized states.

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Section: Resultssupporting

confidence: 88%

“…We attribute the new blocking temperature

T_{normalB}^{'}

T_{normalB}^{'}

Section: Resultsmentioning

confidence: 99%

Magnetism and Transport Properties of Sr₂Ru_1−xCo_xO₄ with x ≤ 0.25

Zhou

Gao

et al. 2016

J. Am. Ceram. Soc.

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“…There have been numerous approaches to this problem using Monte Carlo simulation techniques [18][19][20][21][22]. An alternative way of tackling this problem has been to introduce the Neel relaxation approach inside the SW model.…”

Section: Thermally Activated Hysteresis Modelmentioning

confidence: 99%

“…Thermal activation effects on single domain fine magnetic particles has been studied by Monte Carlo simulations [18][19][20][21][22], and also some micromagnetic models exist for the study of their dynamical properties [23][24][25][26][27]. For a review on the subject see Ref.…”

Section: Introductionmentioning

confidence: 99%

Thermal effects in a Stoner–Wohlfarth model and their influence on magnetic anisotropy determination

Franco

Conde

2004

Journal of Magnetism and Magnetic Materials

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“…It is known that in diluted Cu-Co alloys, DP takes place at relatively low temperatures, ranging from 450 to 700°C with Co rod-like precipitates coherent with the matrix [1]. However, interesting magnetic properties have been reported in supersaturated Cu-Co alloys in condition in which DP is the dominant mode of precipitation after isothermal aging treatments [2,3]. For this reason, it is of fundamental importance to understand the development of DP and coarsening in CuCo alloys.…”

mentioning

confidence: 99%

Microstructure Evolution of Discontinuous Precipitation and Coarsening of Co Rod-like Precipitates in Supersaturated Cu-Co alloys

2015

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Discontinuous precipitation (DP) is a solid state reaction in which precipitation takes place in a moving interface, generally a moving, incoherent, grain boundary. The transformation product is arrays of precipitates growing cooperatively and perpendicular to the moving interface. Among hundreds of alloy systems in which DP takes place, Cu-Co alloy is of great importance due to ferromagnetic character of Co precipitates. In this alloy system, anisotropic arrangement of precipitates generates magnetic anisotropy and consequently drastic changes in its magnetic properties. It is known that in diluted Cu-Co alloys, DP takes place at relatively low temperatures, ranging from 450 to 700°C with Co rod-like precipitates coherent with the matrix [1]. However, interesting magnetic properties have been reported in supersaturated Cu-Co alloys in condition in which DP is the dominant mode of precipitation after isothermal aging treatments [2,3]. For this reason, it is of fundamental importance to understand the development of DP and coarsening in CuCo alloys.In this paper we investigated the growth of DP and coarsening in supersaturated Cu-10at. %Co alloys upon isothermal aging at temperatures ranging from 450 to 650°C, for periods of 5, 10, 30 and 60min. Due to nanometric size of precipitates (about 2nm in diameter), a TEM/STEM JEOL JEM 2100F operating at 200kV under conventional, scanning and analytical transmission electron microscopy was used to analyze the microstructure in detail. Nano beam diffraction (NBD) mapping NANOMEGAS technique has been used to evaluate orientation relationships between precipitate colonies and parent matrix as well as preferential directions of discontinuous reactions upon grain boundary migration.Results show that DP was the dominant mode of precipitation. Discontinuous precipitates are rodlike Co-rich, fully coherent with matrix with fcc structure, as confirmed by diffraction patterns. We verified a good stability of these precipitates at 450°C up to 60min of aging, with DP development in all high angle grain boundaries. At higher temperatures, coarsening takes place rapidly consuming discontinuous precipitates. This coarsening is also grain boundary driven, so-called discontinuous coarsening (DC): the grain boundary moves consuming DP colonies replacing them by coarsen rodlike precipitates, with fcc structure and still coherent with matrix at early stages. However, under aging for longer periods of time DC precipitates lose coherency and change orientation in a similar fashion as demonstrated by Takeda for coherency loss of homogeneous Co precipitates [4]. Fig. 1a and b show well-defined DP and DC colonies respectively. Fig.2a shows the coherency loss of a rodlike DC precipitate by emission of dislocation loops, seen as the ring-like contrast. EDS Co mapping in Fig. 2b confirm the presence of precipitate phase β. After longer aging times, DC β precipitates become incoherent with the matrix α and change orientation adopting the orientation relationship (100) α //(110) β , as can be seen in ...

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Coercivity extrema in melt-spun CuCo ribbons: Effects of the magnetic moment distribution

Cited by 14 publications

References 23 publications

Magnetism and Transport Properties of Sr₂Ru_1−xCo_xO₄ with x ≤ 0.25

Magnetism and Transport Properties of Sr₂Ru_1−xCo_xO₄ with x ≤ 0.25

Thermal effects in a Stoner–Wohlfarth model and their influence on magnetic anisotropy determination

Microstructure Evolution of Discontinuous Precipitation and Coarsening of Co Rod-like Precipitates in Supersaturated Cu-Co alloys

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Coercivity extrema in melt-spun CuCo ribbons: Effects of the magnetic moment distribution

Cited by 14 publications

References 23 publications

Magnetism and Transport Properties of Sr2Ru1−xCoxO4 with x ≤ 0.25

Magnetism and Transport Properties of Sr2Ru1−xCoxO4 with x ≤ 0.25

Thermal effects in a Stoner–Wohlfarth model and their influence on magnetic anisotropy determination

Microstructure Evolution of Discontinuous Precipitation and Coarsening of Co Rod-like Precipitates in Supersaturated Cu-Co alloys

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Resources

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Magnetism and Transport Properties of Sr₂Ru_1−xCo_xO₄ with x ≤ 0.25

Magnetism and Transport Properties of Sr₂Ru_1−xCo_xO₄ with x ≤ 0.25