Static and dynamic magnetic properties of densely packed magnetic nanowire arrays

Dmytriiev, O.; Al-Jarah, U.A.S.; Gangmei, P.; Kruglyak, V. V.; Hicken, R. J.; Mahato, Bipul Kumar; Rana, Bivas; Agrawal, Milan; Barman, Anjan; Mátéfi‐Tempfli, Stefan; Piraux, Luc

doi:10.1103/physrevb.87.174429

Cited by 23 publications

(17 citation statements)

References 67 publications

(100 reference statements)

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“…Para casos intermedios, el valor de este parámetro es crucial al definir la dirección de fácil magnetiza-ción; para valores altos de la porosidad P, el campo de interacción dipolar favorece la magnetización en una dirección del plano de la membrana (in plane), prevaleciendo a veces sobre el eje de fácil anisotropía de los nanohilos individuales (out of plane) [19]. Las interacciones dipolares entre los hilos pueden modelarse con una aproximación de campo medio como un campo de anisotropía uniaxial efectiva orientado perpendicular al eje de los hilos y proporcional a la porosidad: H d = ̶ P M S (donde M S es la magnetización de saturación) [20,21].…”

Section: Figuraunclassified

Influencia de la porosidad en las propiedades magnéticas de arreglos de nanohilos de Ni

Meneses

Bercoff

2015

Matéria (Rio J.)

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RESUMENSe estudiaron las propiedades de histéresis magnética de arreglos ordenados de nanohilos de Ni, electrodepositados éstos en una membrana de alúmina con un arreglo hexagonal de poros cilíndricos. Se analizó el efecto de la geometría de los nanohilos individuales (diámetro y longitud) y del ordenamiento y porosidad del arreglo sobre la coercitividad y la remanencia del conjunto. Las membranas de alúmina auto-ensambladas se sintetizaron por anodizado en dos pasos, usando una celda electroquímica y potencial eléctrico constante. Se variaron los diámetros de poro entre 20 nm y 40 nm (no así la distancia media entre ellos) sumergiendo las membranas en ácido fosfórico al 5% durante distintos tiempos. Estas membranas se caracterizaron por microscopía de barrido (SEM). Los nanohilos de Ni se obtuvieron por electrodeposición AC, a 20 V, 200 Hz y temperatura ambiente. Una vez sintetizados, los arreglos de nanohilos se caracterizaron estructuralmente por SEM y magnéticamente usando un SQUID. Se observa que las propiedades magnéticas de los arreglos son fuertemente dependientes de la relación largo/diámetro de los nanohilos, la que regula el valor de su anisotropía de forma, y también de la porosidad, que determina la magnitud del campo de interacción dipolar que percibe cada nanohilo por la presencia de sus vecinos en el arreglo. En particular, se encontró que la coercitividad decrece con la porosidad y que el parámetro ε, que regula la intensidad de las barreras de energía del sistema, debe ser variable y depender de la porosidad del arreglo para ajustar bien los datos experimentales. Palabras clave: Nanohilos, Propiedades magnéticas, Níquel ABSTRACTThe hysteresis properties of ordered arrays of Ni nanowires, electrodeposited into cylindrical nanoporous alumina membranes were investigated. The effect of the nanowire geometry (diameter and length), the array order and the nanowires' volume fraction on the array coercivity and remanence were analyzed. Porous alumina membranes were produced by a two-step anodization process in a potentiostatic electrochemical cell. The pores' diameters were varied from 20 nm to 40 nm by immersing the membranes in a 5% phosphoric acid solution for different times. The membranes were characterized using a scanning electron microscope (SEM) and both the pore size distribution as well as their separation were determined. These membranes were used as templates for the AC electrodeposition of Ni nanowires, using a voltage of 20 V and a frequency of 200 Hz, at room temperature. The Ni nanowire arrays were structurally and magnetically characterized by SEM and with a SQUID magnetometer, respectively, at room temperature. It was found that the magnetic properties of the array strongly depend on the nanowires aspect ratio -length/diameter ratio-which regulates the wire shape anisotropy and also on the porosity, which determines the magnitude of the dipolar interaction field acting on the array. Particulary, it was found that coercitivity decreases with porosity and that the parameter ε, which is...

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Section: Figuraunclassified

Influencia de la porosidad en las propiedades magnéticas de arreglos de nanohilos de Ni

Meneses

Bercoff

2015

Matéria (Rio J.)

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“…However, the hysteresis of a macroscopic nanowire array exhibits non-square loops as a result of both, size and shape distributions in the sample, and also due to magnetic interactions between nanowires [19][20][21][22][23]. In fact, the competition between the effective anisotropy field of individual nanowires, and the dipolar interaction fields of the array as a whole, determines the hysteresis loop shape.…”

Section: Introductionmentioning

confidence: 99%

Magnetic hysteresis in small-grained Co Pd1− nanowire arrays

Viqueira

López

Urreta

et al. 2015

Journal of Magnetism and Magnetic Materials

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a b s t r a c tCo-Pd nanowires with small grain size are fabricated by AC electrodeposition into hexagonally ordered alumina pores, 20-35 nm in diameter and about 1 mm long. The effects of the alloy composition, the nanowire diameter and the grain size on the hysteresis properties are considered. X-ray diffraction indicates that the nanowires are single phase, a fcc Co-Pd solid solution; electron microscopy results show that they are polycrystalline, with randomly oriented grains (7-12 nm), smaller than the wire diameter. Nanowire arrays are ferromagnetic, with an easy magnetization axis parallel to the nanowire long axis. Both, the coercive field and the loop squareness monotonously increase with the Co content and with the grain size, but no clear correlation with the wire diameter is found. The Co and Co-rich nanowire arrays exhibit coercive fields and reduced remanence values quite insensitive to temperature in the range 4 K-300 K; on the contrary, in Pd-rich nanowires both magnitudes are smaller and they largely increase during cooling below 100 K. These behaviors are systematized by considering the strong dependences displayed by the magneto-crystalline anisotropy and the saturation magnetostriction on composition and temperature. At low temperatures the effective anisotropy value and the domain-wall width to grain size ratio drastically change, promoting less cooperative and harder nucleation modes.

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“…These factors have aroused great interest in magnetic materials at the nanometer scale in recent years. With the advance of modern vacuum science, it is possible to artificially fabricate such structures [7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Phase transition in ising magnetic superlattice nanowires: Molecular field theory approach

Tanriverdiyev

2015

Journal of Magnetism and Magnetic Materials

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Static and dynamic magnetic properties of densely packed magnetic nanowire arrays

Cited by 23 publications

References 67 publications

Influencia de la porosidad en las propiedades magnéticas de arreglos de nanohilos de Ni

Influencia de la porosidad en las propiedades magnéticas de arreglos de nanohilos de Ni

Magnetic hysteresis in small-grained Co Pd1− nanowire arrays

Phase transition in ising magnetic superlattice nanowires: Molecular field theory approach

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