Investigation of the Structural, Magnetic, Magnetocaloric, Electrical Properties, and Spin-Polarized Tunneling Effect of the La0.5Ca0.3Te0.2MnO3 System
Structural, magnetic, magnetocaloric, electrical properties, and spin-polarized tunneling effect in La 0.5 Ca 0.3 Te 0.2 MnO 3 polycrystalline were studied in details. The temperature dependence of the inverse of the magnetic susceptibility indicates the presence of ferromagnetic exchange interactio...
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Published in: | Journal of superconductivity and novel magnetism Vol. 32; no. 3; pp. 463 - 473 |
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Abstract | Structural, magnetic, magnetocaloric, electrical properties, and spin-polarized tunneling effect in La
0.5
Ca
0.3
Te
0.2
MnO
3
polycrystalline were studied in details. The temperature dependence of the inverse of the magnetic susceptibility indicates the presence of ferromagnetic exchange interaction between the nearest neighbors at the Weiss temperature θ
p
= 265.32 ± 0.109. Based on the magnetic field dependence of magnetization, M(H), and employing the thermodynamic Maxwell equation, the magnetic entropy change |ΔS
M
| of the studied sample was determined. The maximum entropy change value of the system was around 4.99 J kg
−1
K
−1
under a magnetic field of 5 T. Electrically, the upturned region of resistivity was observed at low temperature. The recovery of the resistivity was found to be strongly affected by the external magnetic field. The electrical data were analyzed considering various models. Interestingly, the exception of the spin-polarized tunneling (SPT) model is in good agreement with the experimental data among other models. In the current work, the SPT is the dominant mechanism leading to the rise of resistivity, while decreasing the temperature values. Magnetotransport analysis was successfully carried out using percolation model in the temperature range between around 50 K to nearly 300 K under different magnetic fields up to 8 T. The isothermal field dependence of magnetoresistance was recorded fairly well via a phenomenological model based on the spin-polarized tunneling model. |
---|---|
AbstractList | Structural, magnetic, magnetocaloric, electrical properties, and spin-polarized tunneling effect in La
0.5
Ca
0.3
Te
0.2
MnO
3
polycrystalline were studied in details. The temperature dependence of the inverse of the magnetic susceptibility indicates the presence of ferromagnetic exchange interaction between the nearest neighbors at the Weiss temperature θ
p
= 265.32 ± 0.109. Based on the magnetic field dependence of magnetization, M(H), and employing the thermodynamic Maxwell equation, the magnetic entropy change |ΔS
M
| of the studied sample was determined. The maximum entropy change value of the system was around 4.99 J kg
−1
K
−1
under a magnetic field of 5 T. Electrically, the upturned region of resistivity was observed at low temperature. The recovery of the resistivity was found to be strongly affected by the external magnetic field. The electrical data were analyzed considering various models. Interestingly, the exception of the spin-polarized tunneling (SPT) model is in good agreement with the experimental data among other models. In the current work, the SPT is the dominant mechanism leading to the rise of resistivity, while decreasing the temperature values. Magnetotransport analysis was successfully carried out using percolation model in the temperature range between around 50 K to nearly 300 K under different magnetic fields up to 8 T. The isothermal field dependence of magnetoresistance was recorded fairly well via a phenomenological model based on the spin-polarized tunneling model. |
Author | Hamdi, R. Mnasri, T. Smari, M. Dhahri, E. Felhi, H. Bekri, M. |
Author_xml | – sequence: 1 givenname: H. surname: Felhi fullname: Felhi, H. email: houdafelhi@yahoo.com organization: Applied Physics Laboratory, Sfax Faculty of Sciences, University of Sfax – sequence: 2 givenname: M. surname: Smari fullname: Smari, M. organization: Applied Physics Laboratory, Sfax Faculty of Sciences, University of Sfax, Center for Functionalized Magnetic Materials (FunMagMa), Immanuel Kant Baltic Federal University – sequence: 3 givenname: R. surname: Hamdi fullname: Hamdi, R. organization: Applied Physics Laboratory, Sfax Faculty of Sciences, University of Sfax – sequence: 4 givenname: T. surname: Mnasri fullname: Mnasri, T. organization: Physics Department, Faculty of Sciences of Gafsa – sequence: 5 givenname: M. surname: Bekri fullname: Bekri, M. organization: Physics Department, Rabigh College of Science and Art, King Abdulaziz University – sequence: 6 givenname: E. surname: Dhahri fullname: Dhahri, E. organization: Applied Physics Laboratory, Sfax Faculty of Sciences, University of Sfax |
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Keywords | Perovskite manganite Spin-polarized tunneling effect Magnetocaloric effect Resistivity Magnetic properties |
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SubjectTerms | Characterization and Evaluation of Materials Condensed Matter Physics Magnetic Materials Magnetism Physics Physics and Astronomy Review Paper Strongly Correlated Systems Superconductivity |
Title | Investigation of the Structural, Magnetic, Magnetocaloric, Electrical Properties, and Spin-Polarized Tunneling Effect of the La0.5Ca0.3Te0.2MnO3 System |
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