Your search keyword '"FERRIMAGNETIC materials"' showing total 10 results

1. Monte Carlo and mean-field studies on the magnetic properties of a hexagonal Ising nanowire with core-shell structure in the Blume–Emery–Griffiths model.

Author

Aziza Goguin, G.B., Yessoufou, R.A.A., Oke, T.D., and Albayrak, E.

Subjects

*MAGNETIC properties, *PHASE transitions, *MAGNETIC hysteresis, *FERRIMAGNETIC materials, *MONTE Carlo method, *NANOWIRES, *PHASE diagrams

Abstract

The mean-field approximation based on the Gibbs-Bogoliubov inequality and Monte Carlo simulations based on the Metropolis method in the Blume–Emery–Griffiths model were used to successfully examine a hexagonal Ising nanowire with spin-1. It was found that the model displays fascinating phase diagrams in various planes of interest by using both methods. The investigation of magnetic hysteresis cycles also exhibits interesting properties. The model not only presents first- and second-order phase transition lines, but also the tricritical and isolated critical points, multi-compensation temperatures, and magnetic hysteresis behavior with one to eight cycles. • The mean-field approximation based on the Gibbs-Bogoliubov inequality is applied. • The Monte Carlo simulations based on the Metropolis method is employed. • Spin-1 Blume–Emery–Griffiths model for hexagonal Ising nanowire is investigated. • First- and second-order transitions, tricritical and isolated critical points are found. • Multi-compensation and magnetic hysteresis with one to eight cycles are observed. [ABSTRACT FROM AUTHOR]

Published

2024

2. Compensation and reentrant behaviors in a graphene-like nanoribbon with zigzag and armchair edges.

Author

Mouhib, M., Bri, S., Mounir, H., and Belrhiti, M.D.

Subjects

*FERRIMAGNETIC materials, *ARMCHAIRS, *PHASE diagrams, *MAGNETIC properties, *NANORIBBONS, *SPINTRONICS

Abstract

• Ferrimagnetic mixed spin (3/2,1) Ising for zigzag and armchair graphene-like nanoribbons (GNRs) is investigated using the finite cluster approximation FCA. • Transition reentrance is revealed for both GNRs for lower J co strength. • Double compensation points are identified for the armchair GNR under the effect of the shell crystal field. • The core crystal field may lead for both zigzag and armchair GNRs, to a tricritical behavior. Graphene-like nanoribbon structures (GNRs) in which singular magnetic properties emerge because of the graphene-cutting process, may offer unique opportunities for future technological development such as spintronics. Using the finite cluster approximation, research has been implemented on some magnetic and critical characteristics of a mixed spin-3/2 and spin-1 Ising ferrimagnetic graphene-like nanoribbon with two typical edges, namely armchair, and zigzag. We investigate the influences of such aspects as crystal fields, exchange couplings, and temperature on phase diagrams and magnetizations. Tricritical as well as compensation behaviors have been demonstrated under the effect of the above physical parameters. In particular, only armchair GNR may exhibit double compensation points. Meanwhile, an unexpected reentrant transition has been discovered for both GNRs, which is mainly due to the finite size effect. [ABSTRACT FROM AUTHOR]

Published

2023

3. Twisted magnetization states and inhomogeneous resonance modes in a Fe/Gd ferrimagnetic multilayer.

Author

Drovosekov, A.B., Savitsky, A.O., Kholin, D.I., Kreines, N.M., Proglyado, V.V., Makarova, M.V., Kravtsov, E.A., and Ustinov, V.V.

Subjects

*FERRIMAGNETIC materials, *SUPERLATTICES, *MAGNETIC properties of iron compounds, *FERRIMAGNETIC resonance, *PHASE diagrams, *MAGNETIC transitions, *KERR electro-optical effect

Abstract

Highlights • Magnetic H - T phase diagram of a Fe/Gd ferrimagnetic superlattice is obtained. • Collinear, twisted and surface twist magnetic states are identified. • Two spectral branches of ferromagnetic resonance are observed. • The observed modes correspond to different types of non-uniform precession in Gd. Abstract Static and dynamic magnetic properties of a ferrimagnetic Fe (35 Å) / Gd (50 Å) 12 superlattice were investigated in a wide 4–300 K temperature range using magneto-optical Kerr effect (MOKE) and ferromagnetic resonance (FMR) techniques. The multilayer structure was sputtered on a transparent glass substrate which made it possible to perform MOKE measurements on both Fe and Gd terminated sides of the superlattice. These experiments allowed us to detect a transition between field-aligned and canted magnetic states on both sides of the film and to distinguish between the bulk and surface twisted phases of the superlattice. As a result, the experimental H - T magnetic phase diagram of the system was obtained. FMR studies at frequencies 7–36 GHz demonstrated a complex evolution of absorption spectra as temperature decreased from room down to 4 K. Two spectral branches were detected in the sample. Theoretical simulations show that the observed spectral branches correspond to different types of inhomogeneous resonance modes in the multilayer with non-uniform magnetization precession inside Gd layers. [ABSTRACT FROM AUTHOR]

Published

2019

4. Critical behavior in a core-multi shell mixed-spin (½, 1, ½, 1) nanowire.

Author

ELMADDAHI, Zakaria, EL MARSI, Meriem, and El Hafidi, Mohamed

Subjects

*NANOWIRES, *MAGNETIC transitions, *FERRIMAGNETIC materials, *PHASE diagrams, *MAGNETIC properties, *CRITICAL temperature

Abstract

• A multi-walled mixed spin (1/2; 1; 1/2; 1) Ising nanowire with a basic hexagonal shape is built. • For ferrimagnetic and ferromagnetic sates, different magnetic properties are established. • The magnetization types and compensating behaviors are strongly influenced by different Hamiltonian settings. • Unique outcomes are discovered. Using the Effective Field Theory with correlation, we investigate the magnetic properties and the phase diagram of a mixed-spin (½, 1, ½, 1) Ising core-multi shell nanowire structure. Typical temperature dependence of the total magnetization, the core and shell magnetization for several fixed values of exchange couplings were discussed in detail. The phase diagrams of the critical and compensation temperatures were displayed in various Hamiltonian parameter planes. Our established results have been successfully compared with results from several experimental and theoretical studies. The ultimate objective is to stimulate research into the design and development of innovative nanomaterials for targeted applications. [ABSTRACT FROM AUTHOR]

Published

2022

5. Phase diagrams and compensation behaviors of a mixed Spin-(3/2, 1) Ising-Type Ferrimagnet: Monte Carlo investigation.

Author

Elidrysy, A., Harir, S., Zouhair, A., and Y.Boughaleb

Subjects

*FERRIMAGNETIC materials, *PHASE diagrams, *MAGNETIC crystals, *MONTE Carlo method, *ISING model, *MAGNETIC fields

Abstract

• The mixed spin Ising model is generally used as a modeling tool to study ferrimagnetism. • Monte Carlo simulation to study the critical and the compensation behaviors of a cubic lattice considering a mixed spin- 3/2 and spin-1 Ising ferrimagnetic model. • The presence of crystal and external magnetic fields is not sufficient to generate the compensation phenomenon in a mixed spins. In this study, we perform Monte Carlo simulations to study the magnetic properties of a mixed Ising model on a cubic lattice where spins S i A = 1 and σ J B = 3/2 are located in sublattice A and B, respectively. The proposed Hamiltonian includes coupling to nearest-neighbors interactions, next-nearest-neighbors interactions, crystal fields D S and D σ and external magnetic field h. We perform exact ground-state calculations for our model. The obtained results show the behavior of the critical temperature with the presence of the compensation temperatures under a certain range of parameters. Particularly, we found that the existence of compensation temperatures depends on the strength of the coupling to the next nearest neighbors between the S i A spins and between the σ J B spins, and it appears in a certain range of values of the external magnetic and crystal field of different spins. [ABSTRACT FROM AUTHOR]

Published

2022

6. The phase diagrams and the magnetic properties of a ferrimagnetic mixed spin 1/2 and spin 1 Ising nanowire.

Author

Boughrara, M., Kerouad, M., and Zaim, A.

Subjects

*PHASE diagrams, *MAGNETIC properties, *FERRIMAGNETIC materials, *ISING model, *NANOWIRES, *MONTE Carlo method, *FIELD theory (Physics)

Abstract

Abstract: In this work, we have used Monte Carlo Simulation technique (MCS) and effective field theory (EFT) to study the critical and the compensation behaviors of a ferrimagnetic cylindrical nanowire. The system consists of a ferromagnetic spin S A =1/2 core and a ferromagnetic spin S B =1 surface shell coupled with an antiferromagnetic interlayer coupling J 1 to the core. The effects of the uniaxial anisotropy, the shell coupling and the interface negative coupling on both the critical and compensation temperatures are investigated. [Copyright &y& Elsevier]

Published

2014

7. Phase diagrams and magnetic properties of a ferrimagnetic cylindrical core/shell spin-1 Ising nanowire.

Author

Boughazi, B., Boughrara, M., and Kerouad, M.

Subjects

*PHASE diagrams, *MAGNETIC properties, *FERRIMAGNETIC materials, *CYLINDRICAL shells, *ISING model, *NANOWIRES, *MONTE Carlo method

Abstract

Abstract: A Monte Carlo Simulation has been used to study the critical behavior of the magnetic spin-1 Ising nanowire on an hexagonal lattice structure. Our system consists of a ferromagnetic core with two shells, coupled antiferromagnetically with a surface shell. The effects of the crystal field, the shell and the core/shell interactions on the behavior of the system are examined. We found that the system exhibits one or two compensation points, the first and the second order transitions. Moreover, we have obtained that the critical point depends on the shell coupling. [Copyright &y& Elsevier]

Published

2014

8. Dynamic magnetic properties of a double-layer core–shell graphene nanoisland in an oscillating magnetic field.

Author

Wu, Hao-jia, Wang, Wei, Lv, Dan, Chang, Chun-lu, Li, Bo-chen, and Tian, Ming

Subjects

*MAGNETIC fields, *MAGNETIC properties, *HYSTERESIS loop, *MONTE Carlo method, *PHASE diagrams, *FERRIMAGNETIC materials

Abstract

• A ferrimagnetic double-layer core–shell Ising graphene nanoisland was studied in an oscillating magnetic field. • The dynamic order parameter, the susceptibility and the internal energy were discussed by Monte Carlo simulation. • The phase diagrams as well as the multiple-loop hysteresis behaviors were exhibited. • The behaviors of the coercivity and remanence under the influence of various parameters were investigated. By using Monte Carlo simulations, we discuss the dynamic magnetic properties of a double-layer core–shell graphene nanoisland with mixed-spin (2, 5/2) configuration in an oscillating magnetic field. We investigate the influence of exchange couplings, oscillating magnetic field, and temperature on the dynamic magnetic and thermodynamic properties of the system. We obtain the various characteristic curves of the dynamic order parameter, susceptibility, and internal energy as well as hysteresis loops. To better understand the impact of these physical parameters on the phase transition of the system, the phase diagrams are depicted. It should be noticed that the system can exhibit multiple-loop hysteresis behaviors under certain conditions. Besides, we plot the coercivity and remanence of the system under the influence of various parameters. [ABSTRACT FROM AUTHOR]

Published

2020

9. Cluster size effects in the magnetic properties of [formula omitted]-[formula omitted] alloys.

Author

Santos-Filho, J.B., Santos Sá, A.V., de Araujo Batista, T.S., and Plascak, J.A.

Subjects

*MONTE Carlo method, *MAGNETIC properties, *ISING model, *ALLOYS, *CRITICAL temperature, *PHASE diagrams, *FERRIMAGNETIC materials

Abstract

• Critical properties of Fe-Al alloys in the bcc phase – phase diagram. • Ising model with exchange and superexchange interactions. • Monte Carlo simulations taking the effects of the Al cluster sizes. A spin-1/2 Ising model, defined in the body centered cubic lattice, is used to describe some of the thermodynamic properties of Fe p - Al q alloys, with p + q = 1. The model assumes, besides the nearest-neighbor exchange coupling, the existence of further next-nearest-neighbor superexchange interactions, where the latter ones depend on the aluminum atoms cluster size. The Ising system so considered is studied by employing Monte Carlo simulations, using a hybrid algorithm consisting of one single-spin Metropolis move together with one single-cluster Wolff algorithm allied, in addition, with single histograms procedures and finite-size scaling techniques. Quite good fits to the experimental results of the ordering critical temperature, as a function of Al concentration in the range 0 ⩽ q < 0.7 , are obtained and compared to more recent theoretical approaches done on the same alloys. [ABSTRACT FROM AUTHOR]

Published

2020

10. Magnetism in two antiferromagnetic Ising nanoparticles under an applied transverse field.

Author

Kaneyoshi, T.

Subjects

*MAGNETISM, *FERRIMAGNETIC materials, *PHASE diagrams, *NANOPARTICLES, *FINITE fields, *MAGNETIC properties

Abstract

• The two (A and B) Ising nanoparticles are investigated. • They are discussed by using the effective-field theory with correlations. • The phase diagrams and magnetizations are obtained. • Some characteristic phenomena, such as the reentrant phenomena and ferrimagnetic behaviors, are found. The phase diagrams and magnetization curves of two antiferromagnetic Ising nanoparticles (A and B) under an applied transverse field are investigated by using the effective-field theory with correlations. The nanoparticle B is a size larger than that of nanoparticle A. The effects of size on the magnetic properties are discussed. Some characteristic features, such as the reentrant phenomena, are found in these properties of both systems, when a finite transverse field h is applied. The nanoparticle B exhibits the ferrimagnetic behaviors, such as a compensation point. [ABSTRACT FROM AUTHOR]

Published

2020