Your search keyword '"Alvarenga, T. S. T."' showing total 12 results

1. Theoretical investigation on the magnetic and electric properties in TbSb compound through an anisotropic microscopic model.

Author

von Ranke, P. J., Ribeiro, P. O., Carvalho, A. Magnus G., Alho, B. P., Alvarenga, T. S. T., Nobrega, E. P., Caldas, A., de Sousa, V. S. R., Lopes, P. H. O., and de Oliveira, N. A.

Subjects

MAGNETIC anisotropy, MAGNETORESISTANCE, MAGNETIC entropy, ANTIFERROMAGNETISM, MATHEMATICAL models, ANISOTROPY

Abstract

We report the strong correlations between the magnetoresistivity and the magnetic entropy change in the cubic antiferromagnetic TbSb compound. The theoretical investigation was performed through a microscopic model which takes into account the crystalline electrical field anisotropy, exchange coupling interactions between the up and down magnetic sublattices, and the Zeeman interaction. The easy magnetization directions changes from 〈001〉 to 〈110〉 and then to 〈111〉 observed experimentally was successfully theoretically described. Also, the calculation of the temperature dependence of electric resistivity showed good agreement with the experimental data. Theoretical predictions were calculated for the temperature dependence of the magnetic entropy and resistivity changes upon magnetic field variation. Besides, the difference in the spin up and down sublattices resistivity was investigated. [ABSTRACT FROM AUTHOR]

Published

2016

2. Electric field triggering the spin reorientation and controlling the absorption and release of heat in the induced multiferroic compound EuTiO3.

Author

von Ranke, P. J., Gama, S., Ribeiro, P. O., Carvalho, A. Magnu G., Alho, B. P., Alvarenga, T. S. T., Nobrega, E. P., Caldas, A., de Sousa, S. R., Lopes, P. H. O., and de Oliveira, N. A.

Subjects

ELECTRIC fields, MAGNETIC fields, MAGNETIC coupling, HAMILTON'S equations, SPIN orientation

Abstract

We report remarkable results due to the coupling between the magnetization and the electric field induced polarization in EuTiO3. Using a microscopic model Hamiltonian to describe the three coupled sublattices, Eu-(spin-up), Eu-(spin-down), and Ti-(moment), the spin flop and spin reorientation phase transitions were described with and without the electric-magnetic coupling interaction. The external electric field can be used to tune the temperature of the spin reorientation phase transition TSR=TSR(E). When the TSR is tuned around the EuTiO3—Néel temperature (TN=5.5K), an outstanding effect emerges in which EuTiO3 releases heat under magnetic field change. The electric field controlling the spin reorientation transition and the endo-exothermic processes are discussed through the microscopic interactions model parameters. [ABSTRACT FROM AUTHOR]

Published

2015

3. Calculations of the magnetic entropy change in amorphous through a microscopic anisotropic model: Applications to Dy70Zr30 and DyCo3.4 alloys.

Author

von Ranke, P. J., Nobrega, E. P., Caldas, A., Alho, B. P., Ribeiro, P. O., Alvarenga, T. S. T., Lopes, P. H. O., de Sousa, V. S. R., Magnus, A., Carvalho, G., and de Oliveira, N. A.

Subjects

MAGNETOCALORIC effects, DYSPROSIUM alloys, MAGNETIC entropy, MAGNETIC anisotropy, TRANSITION metal ions, RARE earth ions, AMORPHOUS alloys

Abstract

We report theoretical investigations on the magnetocaloric effect, described by the magnetic entropy change in rare earth--transition metal amorphous systems. The model includes the local anisotropy on the rare earth ions in Harris-Plischke-Zuckermann assumptions. The transition metals ions are treated in terms of itinerant electron ferromagnetism and the magnetic moment of rare earth ions is coupled to the polarized d-band by a local eXchange interaction. The magnetocaloric effect was calculated in DyCo34 system, which presents amorphous sperimagnetic configuration. The calculations predict higher refrigerant capacity in the amorphous DyCo3.4 than in DyCo2 crystal, highlighting the importance of amorphous magnetocaloric materials. Our calculation of the magnetocaloric effect in Dy70Zr30, which presents amorphous asperomagnetic configuration, is in good agreement with the eXperimental result. Furthermore, magnetic entropy changes associated with crystal-amorphous configurations change are estimated. [ABSTRACT FROM AUTHOR]

Published

2014

4. Theoretical investigation on the magnetocaloric effect in amorphous systems, application to: Gd80Au20 and Gd70Ni30.

Author

Nóbrega, E. P., Caldas, A., Ribeiro, P. O., Alho, B. P., Alvarenga, T. S. T., de Sousa, V. S. R., de Oliveira, N. A., and von Ranke, P. J.

Subjects

MAGNETOCALORIC effects, PHASE transitions, THERMODYNAMICS, ENTROPY, METALLIC composites, ALLOYS

Abstract

The temperature dependence of the magnetocaloric effect in Gd80Au20 and Gd70Ni30 amorphous alloys were investigated, using the Handrich-Kobe model with a modified Brillouin function that takes an additional exchange fluctuation term. The exchange fluctuation parameters were determined to give better fits to magnetic entropy changes and adiabatic temperature changes. The magnetic entropy changes of 2.20 Jmol-1K-1 and 1.50 Jmol-1K-1 and the refrigerant capacity values of 135 Jmol-1 (ΔB=5 T) and 146 Jmol-1 (ΔB=7 T) are obtained for Gd80Au20 and Gd70Ni30, respectively. In addition, the influence of phase changes between crystalline and amorphous states on the isothermal entropy change was investigated. [ABSTRACT FROM AUTHOR]

Published

2013

5. Electric field triggering the spin reorientation and controlling the absorption and release of heat in the induced multiferroic compound EuTiO3

Author

von Ranke, P. J., primary, Gama, S., additional, Ribeiro, P. O., additional, Carvalho, A. Magnus G., additional, Alho, B. P., additional, Alvarenga, T. S. T., additional, Nobrega, E. P., additional, Caldas, A., additional, de Sousa, V. S. R., additional, Lopes, P. H. O., additional, and de Oliveira, N. A., additional

Published

2015

6. Calculations of the magnetic entropy change in amorphous through a microscopic anisotropic model: Applications to Dy70Zr30 and DyCo3.4 alloys

Author

von Ranke, P. J., primary, Nóbrega, E. P., additional, Caldas, A., additional, Alho, B. P., additional, Ribeiro, P. O., additional, Alvarenga, T. S. T., additional, Lopes, P. H. O., additional, de Sousa, V. S. R., additional, Magnus, A., additional, Carvalho, G., additional, and de Oliveira, N. A., additional

Published

2014

7. Theoretical investigation on the magnetocaloric effect in amorphous systems, application to: Gd80Au20 and Gd70Ni30

Author

Nóbrega, E. P., primary, Caldas, A., additional, Ribeiro, P. O., additional, Alho, B. P., additional, Alvarenga, T. S. T., additional, de Sousa, V. S. R., additional, de Oliveira, N. A., additional, and von Ranke, P. J., additional

Published

2013

8. Spin reorientation and the magnetocaloric effect in HoyEr(1−y)N

Author

von Ranke, P. J., primary, Alvarenga, T. S. T., additional, Alho, B. P., additional, Nóbrega, E. P., additional, Ribeiro, P. O., additional, Carvalho, A. Magnus G., additional, de Sousa, V. S. R., additional, Caldas, A., additional, and de Oliveira, N. A., additional

Published

2012

9. Magnetic and magnetocaloric properties of amorphous Y3Fe5O12

Author

Nobrega, E. P., Caldas, A., Ribeiro, P. O., Bruno Alho, Alvarenga, T. S. T., Sousa, V. S. R., Oliveira, N. A., and Ranke, P. J.

10. Electric field triggering the spin reorientation and controlling the absorption and release of heat in the induced multiferroic compound EuTiO3.

Author

von Ranke, P. J., Gama, S., Ribeiro, P. O., Carvalho, A. Magnu G., Alho, B. P., Alvarenga, T. S. T., Nobrega, E. P., Caldas, A., de Sousa, S. R., Lopes, P. H. O., and de Oliveira, N. A.

Subjects

*ELECTRIC fields, *MAGNETIC fields, *MAGNETIC coupling, *HAMILTON'S equations, *SPIN orientation

Abstract

We report remarkable results due to the coupling between the magnetization and the electric field induced polarization in EuTiO3. Using a microscopic model Hamiltonian to describe the three coupled sublattices, Eu-(spin-up), Eu-(spin-down), and Ti-(moment), the spin flop and spin reorientation phase transitions were described with and without the electric-magnetic coupling interaction. The external electric field can be used to tune the temperature of the spin reorientation phase transition TSR=TSR(E). When the TSR is tuned around the EuTiO3—Néel temperature (TN=5.5K), an outstanding effect emerges in which EuTiO3 releases heat under magnetic field change. The electric field controlling the spin reorientation transition and the endo-exothermic processes are discussed through the microscopic interactions model parameters. [ABSTRACT FROM AUTHOR]

Published

2015

11. Theoretical investigation on the magnetocaloric effect in amorphous systems, application to: Gd80Au20 and Gd70Ni30.

Author

Nóbrega, E. P., Caldas, A., Ribeiro, P. O., Alho, B. P., Alvarenga, T. S. T., de Sousa, V. S. R., de Oliveira, N. A., and von Ranke, P. J.

Subjects

*MAGNETOCALORIC effects, *PHASE transitions, *THERMODYNAMICS, *ENTROPY, *METALLIC composites, *ALLOYS

Abstract

The temperature dependence of the magnetocaloric effect in Gd80Au20 and Gd70Ni30 amorphous alloys were investigated, using the Handrich-Kobe model with a modified Brillouin function that takes an additional exchange fluctuation term. The exchange fluctuation parameters were determined to give better fits to magnetic entropy changes and adiabatic temperature changes. The magnetic entropy changes of 2.20 Jmol-1K-1 and 1.50 Jmol-1K-1 and the refrigerant capacity values of 135 Jmol-1 (ΔB=5 T) and 146 Jmol-1 (ΔB=7 T) are obtained for Gd80Au20 and Gd70Ni30, respectively. In addition, the influence of phase changes between crystalline and amorphous states on the isothermal entropy change was investigated. [ABSTRACT FROM AUTHOR]

Published

2013

12. Theoretical investigations on magnetic entropy change in amorphous and crystalline systems: Applications to RAg (R=Tb, Dy, Ho) and GdCuAl.

Author

von Ranke, P. J., Nóbrega, E. P., Caldas, A., Alho, B. P., Ribeiro, P. O., Alvarenga, T. S. T., Lopes, P. H. O., de Sousa, V. S. R., Carvalho, A. Magnus G., and de Oliveira, N. A.

Subjects

*MAGNETIC entropy, *AMORPHOUS substances, *ANISOTROPY, *GADOLINIUM compounds, *MAGNETIC moments, *CRYSTAL structure

Abstract

We report theoretical investigations on the magnetic entropy changes in amorphous systems through two different assumptions. In the first assumption, the HPZ-anisotropic model is considered to deal with the random direction of magnetic moments, where the amorphous RAg (R=Tb, Dy and Ho) were used as prototypes systems. In the second assumption, the amorphisation is parameterized through the exchange interaction distribution and GdCuAl, in amorphous and crystalline structures, were considered as prototypes systems. Comparisons between the magnetic entropy changes under amorphisation and under the usual magnetic field variation were performed. The model reveals the dependence of refrigerant capacity on the amorphisation parameter, and an optimum amorphisation parameter was calculated. [ABSTRACT FROM AUTHOR]

Published

2014