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Magnetic Properties of Diluted Spinels MgxNi1−xFe2O4 Systems: Are Studied by Green’s Functions and Mean Field Theories

Abdellah El Grini, Said Salmi, Abdelouahid Azouaoui, Ahmed Hourmatallah, Khalid Bouslykhane, Mohamed Hamedoun, Najib Benzakour
Published in American Journal of Science, Engineering and Technology (Volume 4, Issue 3)
Received: 6 March 2019    Accepted: 5 May 2019    Published: 29 October 2019
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Abstract

Many-body Green's function, and mean field theories have been developed for magnetic systems MgxNi1−xFe2O4. We apply this theory to evaluate thermal magnetization and magnetic susceptibility for different values of magnetic field and dilution x, by considering all components of the magnetisation when an external magnetic field is applied in (x-z)-plane. The critical temperatures of MgxNi1−xFe2O4 systems in the range 0 ≤ x ≤ 1 have been deduced. The Green's function results are compared with the results of high temperature series expansion technique, and experimental magnetic measurements.

Published in American Journal of Science, Engineering and Technology (Volume 4, Issue 3)
DOI 10.11648/j.ajset.20190403.12
Page(s) 48-54
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

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Copyright © The Author(s), 2024. Published by Science Publishing Group
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Keywords

Spinels, Heisenberg Model, Exchange Interaction, Green’s Function, Random-Phase Approximation (RPA)

References
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[10] K. Elk, W. Gasser. Die methode der greenschenfunktionen in der festkorperphysik. Berlin: Akademie-Verlag; 1978.
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  • APA Style

    Abdellah El Grini, Said Salmi, Abdelouahid Azouaoui, Ahmed Hourmatallah, Khalid Bouslykhane, et al. (2019). Magnetic Properties of Diluted Spinels MgxNi1−xFe2O4 Systems: Are Studied by Green’s Functions and Mean Field Theories. American Journal of Science, Engineering and Technology, 4(3), 48-54. https://doi.org/10.11648/j.ajset.20190403.12

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    ACS Style

    Abdellah El Grini; Said Salmi; Abdelouahid Azouaoui; Ahmed Hourmatallah; Khalid Bouslykhane, et al. Magnetic Properties of Diluted Spinels MgxNi1−xFe2O4 Systems: Are Studied by Green’s Functions and Mean Field Theories. Am. J. Sci. Eng. Technol. 2019, 4(3), 48-54. doi: 10.11648/j.ajset.20190403.12

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    AMA Style

    Abdellah El Grini, Said Salmi, Abdelouahid Azouaoui, Ahmed Hourmatallah, Khalid Bouslykhane, et al. Magnetic Properties of Diluted Spinels MgxNi1−xFe2O4 Systems: Are Studied by Green’s Functions and Mean Field Theories. Am J Sci Eng Technol. 2019;4(3):48-54. doi: 10.11648/j.ajset.20190403.12

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  • @article{10.11648/j.ajset.20190403.12,
  author = {Abdellah El Grini and Said Salmi and Abdelouahid Azouaoui and Ahmed Hourmatallah and Khalid Bouslykhane and Mohamed Hamedoun and Najib Benzakour},
  title = {Magnetic Properties of Diluted Spinels MgxNi1−xFe2O4 Systems: Are Studied by Green’s Functions and Mean Field Theories},
  journal = {American Journal of Science, Engineering and Technology},
  volume = {4},
  number = {3},
  pages = {48-54},
  doi = {10.11648/j.ajset.20190403.12},
  url = {https://doi.org/10.11648/j.ajset.20190403.12},
  eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajset.20190403.12},
  abstract = {Many-body Green's function, and mean field theories have been developed for magnetic systems MgxNi1−xFe2O4. We apply this theory to evaluate thermal magnetization and magnetic susceptibility for different values of magnetic field and dilution x, by considering all components of the magnetisation when an external magnetic field is applied in (x-z)-plane. The critical temperatures of MgxNi1−xFe2O4 systems in the range 0 ≤ x ≤ 1 have been deduced. The Green's function results are compared with the results of high temperature series expansion technique, and experimental magnetic measurements.},
 year = {2019}
}

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  • TY  - JOUR
T1  - Magnetic Properties of Diluted Spinels MgxNi1−xFe2O4 Systems: Are Studied by Green’s Functions and Mean Field Theories
AU  - Abdellah El Grini
AU  - Said Salmi
AU  - Abdelouahid Azouaoui
AU  - Ahmed Hourmatallah
AU  - Khalid Bouslykhane
AU  - Mohamed Hamedoun
AU  - Najib Benzakour
Y1  - 2019/10/29
PY  - 2019
N1  - https://doi.org/10.11648/j.ajset.20190403.12
DO  - 10.11648/j.ajset.20190403.12
T2  - American Journal of Science, Engineering and Technology
JF  - American Journal of Science, Engineering and Technology
JO  - American Journal of Science, Engineering and Technology
SP  - 48
EP  - 54
PB  - Science Publishing Group
SN  - 2578-8353
UR  - https://doi.org/10.11648/j.ajset.20190403.12
AB  - Many-body Green's function, and mean field theories have been developed for magnetic systems MgxNi1−xFe2O4. We apply this theory to evaluate thermal magnetization and magnetic susceptibility for different values of magnetic field and dilution x, by considering all components of the magnetisation when an external magnetic field is applied in (x-z)-plane. The critical temperatures of MgxNi1−xFe2O4 systems in the range 0 ≤ x ≤ 1 have been deduced. The Green's function results are compared with the results of high temperature series expansion technique, and experimental magnetic measurements.
VL  - 4
IS  - 3
ER  -

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Author Information

  • Abdellah El Grini

    Laboratoire de Physique du Solide, Faculté des Siences DharMahraz, Université Sidi Mohammed Ben Abdellah, Fès, Morocco

  • Said Salmi

    Laboratoire de Physique du Solide, Faculté des Siences DharMahraz, Université Sidi Mohammed Ben Abdellah, Fès, Morocco

  • Abdelouahid Azouaoui

    Laboratoire de Physique du Solide, Faculté des Siences DharMahraz, Université Sidi Mohammed Ben Abdellah, Fès, Morocco

  • Ahmed Hourmatallah

    Equipe de Physique du Solide, Laboratoire LIPI, Ecole Normale Supérieure, Bensouda, Fès, Morocco

  • Khalid Bouslykhane

    Laboratoire de Physique du Solide, Faculté des Siences DharMahraz, Université Sidi Mohammed Ben Abdellah, Fès, Morocco

  • Mohamed Hamedoun

    MAScIR, Institute of Nanomaterials and Nanotechnologies, Rabat, Morocco

  • Najib Benzakour

    Laboratoire de Physique du Solide, Faculté des Siences DharMahraz, Université Sidi Mohammed Ben Abdellah, Fès, Morocco

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