Characteristics of FeCo nano-particles synthesized using plasma focus

T. Zhang; K. S. Thomas Gan; P. Lee; R. V. Ramanujan; R. S. Rawat

doi:10.1088/0022-3727/39/10/033

Characteristics of FeCo nano-particles synthesized using plasma focus

T. Zhang^*, K. S. Thomas Gan, P. Lee, R. V. Ramanujan, R. S. Rawat

^*Corresponding author for this work

Nanyang Technological University

Research output: Contribution to journal › Article › peer-review

36 Citations (Scopus)

Abstract

In our recent investigation, a 3.3 kJ Mather type plasma focus was used to synthesize FeCo nano-particles. The tops of the anodes normally used were replaced by the materials to be synthesized using different numbers of focus shots. It is observed that the characteristics of the nano-particles depend not only on the numbers of focus shots but also on the angular position of the mounted sample. SEM results show that the size of the nano-particles is smaller when the sample is mounted at a bigger angular position. The size of the particles increases linearly with the increase in the number of focus shots. EDX shows that the FeCo nano-particles are stoichiometric. The magnetic properties measured using a vibrating sample magnetometer identify the soft magnetic nature of the FeCo nano-particles. The saturation magnetization has been found to increase in samples prepared with a higher number of focus shots using repetitive plasma focus NX2.

Original language	English
Pages (from-to)	2212-2219
Number of pages	8
Journal	Journal Physics D: Applied Physics
Volume	39
Issue number	10
DOIs	https://doi.org/10.1088/0022-3727/39/10/033
Publication status	Published - May 21 2006
Externally published	Yes

ASJC Scopus Subject Areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Acoustics and Ultrasonics
Surfaces, Coatings and Films

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10.1088/0022-3727/39/10/033

Cite this

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title = "Characteristics of FeCo nano-particles synthesized using plasma focus",

abstract = "In our recent investigation, a 3.3 kJ Mather type plasma focus was used to synthesize FeCo nano-particles. The tops of the anodes normally used were replaced by the materials to be synthesized using different numbers of focus shots. It is observed that the characteristics of the nano-particles depend not only on the numbers of focus shots but also on the angular position of the mounted sample. SEM results show that the size of the nano-particles is smaller when the sample is mounted at a bigger angular position. The size of the particles increases linearly with the increase in the number of focus shots. EDX shows that the FeCo nano-particles are stoichiometric. The magnetic properties measured using a vibrating sample magnetometer identify the soft magnetic nature of the FeCo nano-particles. The saturation magnetization has been found to increase in samples prepared with a higher number of focus shots using repetitive plasma focus NX2.",

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AU - Zhang, T.

AU - Thomas Gan, K. S.

AU - Lee, P.

AU - Ramanujan, R. V.

AU - Rawat, R. S.

PY - 2006/5/21

Y1 - 2006/5/21

N2 - In our recent investigation, a 3.3 kJ Mather type plasma focus was used to synthesize FeCo nano-particles. The tops of the anodes normally used were replaced by the materials to be synthesized using different numbers of focus shots. It is observed that the characteristics of the nano-particles depend not only on the numbers of focus shots but also on the angular position of the mounted sample. SEM results show that the size of the nano-particles is smaller when the sample is mounted at a bigger angular position. The size of the particles increases linearly with the increase in the number of focus shots. EDX shows that the FeCo nano-particles are stoichiometric. The magnetic properties measured using a vibrating sample magnetometer identify the soft magnetic nature of the FeCo nano-particles. The saturation magnetization has been found to increase in samples prepared with a higher number of focus shots using repetitive plasma focus NX2.

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Characteristics of FeCo nano-particles synthesized using plasma focus

Abstract

ASJC Scopus Subject Areas

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