The magnetic properties and effective magnetic anisotropy of Fe-Ni ultrafine particles

Xu, Shukun; Zheng-ming, HE; Zhang, Zhengming; Wang, Zhongcheng; Chen, Hangde; Chuan-Hua, Dong

doi:10.1007/s11741-000-0016-y

J. of Shanghai Univ.

2000

DOI: 10.1007/s11741-000-0016-y

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The magnetic properties and effective magnetic anisotropy of Fe-Ni ultrafine particles

Shukun Xu

HE Zheng-ming

Zhengming Zhang

et al.

Abstract: Fea00 -~Nix alloys of ultrafine particle with the average grain size of about 10 nm were synthesized by mechanically alloying process. The samples were investigated by X-ray diffraction and measurements of the saturation magnetization and coercivity force. Both b. c. c and f. c. c phase exist within a wide range for Fel00 -~ Ni~, while x~45. The effective magnetic anisotropy K e was measured by applying the law of approach to saturation. The value of K e decreases with an increase of Ni content. It is noticed … Show more

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Cited by 4 publications

(2 citation statements)

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“…Furthermore, A A ¼ 2:88Â10 À11 J/ m for Co, and A B ¼ 1:11 Â10 À11 J/m for Py. 13 We define the exchange term in the interface A/B to be…”

mentioning

confidence: 99%

Partial band gaps in magnonic crystals

Costa

Vasconcelos

Albuquerque

2011

Journal of Applied Physics

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In this work we investigate magnonic band gaps, in the THz frequency range, in periodic and quasiperiodic (Fibonacci sequence) magnonic crystals formed by layers of cobalt and permalloy. Our theoretical model is based on a magnetic Heisenberg Hamiltonian in the exchange regime, together with a transfer-matrix treatment within the random-phase approximation. For periodic arrangements, the bulk band structure is analogous to those found in photonic crystals, while for quasiperiodic multilayers it presents additional pass bands similar to those found in photonic crystals with defects.

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“…Furthermore, A A ¼ 2:88Â10 À11 J/ m for Co, and A B ¼ 1:11 Â10 À11 J/m for Py. 13 We define the exchange term in the interface A/B to be…”

mentioning

confidence: 99%

Partial band gaps in magnonic crystals

Costa

Vasconcelos

Albuquerque

2011

Journal of Applied Physics

View full text Add to dashboard Cite

show abstract

“…The physical parameters used are n A = n B = 4, S A = 5/2, S B = 3/2, and the lattice constant a = 2.5 nm. Furthermore, A A = 2.88 × 10 −11 J/m for Co, and A B = 1.11 × 10 −11 J/m for Py [23]. We define the exchange term in the interface A/B to be I = (J A + J B )/2.…”

mentioning

confidence: 99%

Band gaps in the terahertz frequency range in quasiperiodic one-dimensional magnonic crystals

Costa

Barbosa

Filho

et al. 2010

Solid State Communications

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Structure and magnetic property of amorphous Fe-Ni particles prepared by mechanical alloying

Zheng-ming

Wang

et al. 2001

J. of Shanghai Univ.

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The amorphous Fe67.~Ni32.5 alloy particles have been prepared by mechanical alloying (MA) process of elemental powders. The crystallization is observed at temperature around 405°C by means of differential thermal analyzer. It is found that the coercivity Hc and the effective magnetic anisotropy value of amorphous phase are not far from that of crystal phase. The magnetization behavior of amorphous and nanocrystalline samples prepared by mechanical alloying and milling process are quite similar, they obey 1/H law at middle-high field and 1/H 2 at higher field. The 1/1t field dependence is attributed to a large number of dislocations created during MA process. The studies on the 1/H 2 field dependence reveals that magnetization of Fe-Ni ultrafine particles are governed predominantly by internal stress fields induced by MA process.

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The magnetic properties and effective magnetic anisotropy of Fe-Ni ultrafine particles

Cited by 4 publications

References 7 publications

Partial band gaps in magnonic crystals

Partial band gaps in magnonic crystals

Band gaps in the terahertz frequency range in quasiperiodic one-dimensional magnonic crystals

Structure and magnetic property of amorphous Fe-Ni particles prepared by mechanical alloying

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