Your search keyword '"FERRIMAGNETIC materials"' showing total 4 results

1. Dynamic phase diagrams and compensation behaviors in molecular-based ferrimagnet [formula omitted] under an oscillating magnetic field.

Author

Shi, Xiaoling, Wang, Li, Zhao, Jie, and Xu, Xingguang

Subjects

*PHASE diagrams, *FERRIMAGNETIC materials, *MAGNETIC fields, *STOCHASTIC fields, *TEMPERATURE measurements

Abstract

Within the effective-field theory (EFT), the compensation behaviors in molecular-based ferrimagnet A F e Ι Ι F e Ι Ι Ι ( C 2 O 4 ) 3 which is described by a mixed spin-2 ( F e Ι Ι ) and spin-5/2 ( F e Ι Ι Ι ) ferrimagnetic Ising model on a honeycomb lattice are studied. The Glauber-type stochastic dynamic is used to describe the time evolution of the system under an oscillating magnetic field. A magnetic field dependence of the compensation temperature and a temperature dependence of compensating magnetic field are calculated and both curves agree qualitatively with experimental data. In particular, a two-compensation-points phenomenon which has been reported in the experimental work is also observed in this compound. Dynamic phase boundaries containing the compensation points are calculated. The dynamic tricritical point and critical end point exist on the phase transition lines. Comparing with previous theoretical results obtained by the mean-field theory (MFT), the effective-field theory results show a reasonable improvement over the MFT results. [ABSTRACT FROM AUTHOR]

Published

2016

2. 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

3. Magnetic and thermodynamic behaviors of the graphene-like quantum dots: A Monte Carlo study.

Author

Sun, Lei, Wang, Wei, Lv, Dan, Gao, Zhong-yue, Li, Qi, and Li, Bo-chen

Subjects

*FERRIMAGNETIC materials, *QUANTUM dots, *MONTE Carlo method, *HYSTERESIS loop, *MAGNETIC fields, *ISING model

Abstract

• The graphene-like quantum dots with mixed-spin (3/2, 5/2) have been investigated. • The magnetic and thermodynamic behaviors have been explored. • The turnover phenomenon has been found. • The triple-loop behavior has been observed. Based on the Monte Carlo simulation, we have investigated the magnetic and thermodynamic behaviors of the graphene-like quantum dots described by a ferrimagnetic mixed-spin (3/2, 5/2) Ising model. The curves of the magnetization, magnetic susceptibility, internal energy and the specific heat as a function of temperature have been given under various physical parameters. The interesting turnover phenomenon has been found owing to the competition between the crystal field and temperature. It is found that the value of the blocking temperature increases with decreasing the crystal field or increasing the exchange coupling and external magnetic field. We have also investigated the hysteresis loops and found the impossibility of the triple-loop hysteresis behavior for certain parameters. The area of the hysteresis loops can be improved by increasing the exchange coupling and decreasing the absolute values of the crystal field and temperature. [ABSTRACT FROM AUTHOR]

Published

2021

4. 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