Magnetic properties of a nanoscaled ferrimagnetic thin film: Monte Carlo and effective field treatments

Magoussi, H.; Zaim, A.; Kerouad, M.

doi:10.1016/j.spmi.2015.11.008

Cited by 36 publications

(4 citation statements)

References 47 publications

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“…In this case, the Curie temperature is TC=1.1. These results are consistent with nanostructure systems within the theoretical [58][59][60][61] and experimental [62][63][64] framework. Magnetic properties of the IMN such as HC, and Mr /MS ratio have been also studied at various temperatures between 0.1 and 1.5.…”

Section: The Influence Of the Temperature On The Hysteresis Behaviorssupporting

confidence: 87%

Ising-tipi çok segmentli nanoyapıda kompozisyon ve sıcaklık bağımlılıkları

Kantar¹

2018

Academic Platform Journal of Engineering and Science

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In the present study, an Ising-type multisegment nanowire (IMN) with ferromagnetic / non-magnetic segment structure is investigated by means of the effective-field theory (EFT) with correlations. The effects of the composition (p) and temperature (T) on the magnetic hysteresis properties are investigated in detail. The coercive field (HC) and squareness (Mr /MS) of the IMN is also derived from hysteresis loops as a function of p and T. In this system, it was found that the p and T have a significant effect on the magnetic behavior. When the obtained theoretical results compare with some experimental works of nanowire in view of hysteresis behaviors, a very good agreement between them is observed.

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Section: The Influence Of the Temperature On The Hysteresis Behaviorssupporting

confidence: 87%

Ising-tipi çok segmentli nanoyapıda kompozisyon ve sıcaklık bağımlılıkları

Kantar¹

2018

Academic Platform Journal of Engineering and Science

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“…Furthermore, the results obtained from the EFT have also the same topology as those obtained from the MC. In fact, the magnetic properties (magnetization, internal energy and so on) of a system are the same for the EFT and the MC, while the results obtained from the MC are smaller than those obtained from the EFT (for instance, see the works [11,12,13]). …”

Section: Introductionmentioning

confidence: 99%

Effects of a Transverse Field in Two Mixed-Spin Ising Bilayer Films

Kaneyoshi

2017

Nanomaterials

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The magnetic properties (phase diagrams and magnetizations) of two mixed-spin Ising bilayer films with a transverse field are investigated by the use of the effective field theory with correlations. The systems consist of two magnetic atoms where spin-1/2 atoms are directed to the z-direction and only spin-1 atoms are canted from the z-direction by applying a transverse field. We examined how magnetization sign reversal can be realized in the system, due to the effects of the transverse field on the spin-1 atoms. The compensation point phenomena are found in both systems, depending on the selections of physical parameters. However, the reentrant phenomena are found only for one of the two systems.

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“…It is known, below the transition temperature of ferrimagnetic materials, the two inequivalent moments interact antiferromagnetically, giving rise to zero spontaneous magnetization [3]. When the temperature is lower than critical one ) ( c T , a specific point is known as the spin compensation temperature can be observe where the sublattice magnetizations cancel perfectly one each other [3][4][5][6][7][8][9][10][11]. Monte-Carlo simulation [12] of a mixed spin-2 and spin-5/2 Ising model on a layered honeycomb lattice, it has been predicted that the longinterlayer interactions may produce a compensation temperature regardless the absence or presence of the second-nearest-neighbor interactions [11,12].…”

Section: Introductionmentioning

confidence: 99%

Mixed Spin Ising Ferrimagnetic System in the Oguchi Approximation

Hemzah

Khrajan

Mohamad

2023

KEM

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It has been investigated an Ising ferrimagnet with mixed spin-2 and spin-5/2 and various crystal field parameters on a body-centered cubic lattice. In this research paper, ferrimagnetic compensation temperatures and phase transitions to clarify the characteristic features, in a series of molecular-based magnets AFeIIFeIII(C2O4)3[A=N(n-CnH2n+1)4, n=3-5] are examined in the Oguchi approximation (OA). The spin crystal domain dependence of compensation behavior acting on ions contain the Oguchi lattice, is mainly studied. It is discovered, specifically, that magnetic anisotropies in the disordered for the two sublattices of the model depend on the negative values of the crystal fields to produce a characteristic ferrimagnetic behavior. For DA/|J|=-1.5 and DB/|J|=-5.5, there are two compensation points are induced at an ordered phase(2,-1.5).

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Magnetic properties of a nanoscaled ferrimagnetic thin film: Monte Carlo and effective field treatments

Cited by 36 publications

References 47 publications

Ising-tipi çok segmentli nanoyapıda kompozisyon ve sıcaklık bağımlılıkları

Ising-tipi çok segmentli nanoyapıda kompozisyon ve sıcaklık bağımlılıkları

Effects of a Transverse Field in Two Mixed-Spin Ising Bilayer Films

Mixed Spin Ising Ferrimagnetic System in the Oguchi Approximation

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