H. R. Alamri, S. M. Elghnam, O. M. Hemeda, M. A. Hamad, “Hysteresis energy loss of nanocrystalline CoFe$_2$O$_4$ synthesized by modified citrate-gel method”, Fizika Tverdogo Tela, 63:9 (2021), 1400; Phys. Solid State, 63:9 (2021), 1332

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Fizika Tverdogo Tela, 2021, Volume 63, Issue 9, Page 1400 (Mi ftt10137)

This article is cited in 13 scientific papers (total in 13 papers)

Impurity centers

Hysteresis energy loss of nanocrystalline CoFe

_{2}

$_2$ O

_{4}

$_4$ synthesized by modified citrate-gel method

H. R. Alamri^a, S. M. Elghnam^b, O. M. Hemeda^c, M. A. Hamad^d

^a Physics Department, Aljamoum University College, Umm Al-Qura University, Makkah 21955, Saudi Arabia
^b Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt
^c Physics Department, Faculty of Science, Tanta University, Tanta, Egypt
^d Basic Science Department, Higher Institute of Engineering and Technology, Alexandria, Egypt

Full-text PDF (27 kB) Citations (13)

Abstract: This paper presents modification for a model to express magnetic hysteresis loop and the calculation of hysteresis energy loss (HEL) for cobalt ferrite nanoparticles (CFNs) produced by modified citrate-gel method. A simulation of CFNs hysteretic loops was successfully carried out showing a good fitting between the calculated and experimental curve. In addition, HEL is predicted in an expression as a result of this modified model.

Keywords: modeling, magnetization curves, hysteresis, cobalt ferrite.

Received: 06.03.2021
Revised: 06.03.2021
Accepted: 24.03.2021

English version:
Physics of the Solid State, 2021, Volume 63, Issue 9, Pages 1332–1336
DOI: https://doi.org/10.1134/S106378342109002X

Document Type: Article

Language: English

Citation: H. R. Alamri, S. M. Elghnam, O. M. Hemeda, M. A. Hamad, “Hysteresis energy loss of nanocrystalline CoFe

_{2}

$_2$ O

_{4}

$_4$ synthesized by modified citrate-gel method”, Fizika Tverdogo Tela, 63:9 (2021), 1400; Phys. Solid State, 63:9 (2021), 1332–1336

Citation in format AMSBIB

\Bibitem{AlaElgHem21}

\by H.~R.~Alamri, S.~M.~Elghnam, O.~M.~Hemeda, M.~A.~Hamad

\paper Hysteresis energy loss of nanocrystalline CoFe$_2$O$_4$ synthesized by modified citrate-gel method

\jour Fizika Tverdogo Tela

\yr 2021

\vol 63

\issue 9

\pages 1400

\mathnet{http://mi.mathnet.ru/ftt10137}

\transl

\jour Phys. Solid State

\yr 2021

\vol 63

\issue 9

\pages 1332--1336

\crossref{https://doi.org/10.1134/S106378342109002X}

Linking options:

https://www.mathnet.ru/eng/ftt10137

https://www.mathnet.ru/eng/ftt/v63/i9/p1400

This publication is cited in the following 13 articles:

Mahmoud A. Hamad, Hatem R. Alamri, “The multi peaks of magnetocaloric effect in Ni48Mn39.5Sn9.5Al3 ribbon”, Appl. Phys. A, 130:8 (2024)
Hatem R. Alamri, Mahmoud A. Hamad, “Verification of the Phenomenological Model's Validity for the Conventional and Inverse Magnetocaloric Effects in Ni50Mn34In16”, J Supercond Nov Magn, 2024
Mahmoud A. Hamad, Hatem R. Alamri, “Investigation of Strong Tailored Magnetocaloric Effect in Ba(Fe1-xScx)12O19”, J Supercond Nov Magn, 2024
Mahmoud A. Hamad, Hatem R. Alamri, “Detection of Magnetocaloric Effects in BaFe11TiO19 Both Directly and Inversely”, Russ. J. Phys. Chem., 98:13 (2024), 3238
Mahmoud A. Hamad, Hatem R. Alamri, “Magnetocaloric Effect in the La0.5Ca0.5MnO3-BaTi0.8Sn0.2O3 Composite over a Widely Temperature Range”, Russ. J. Phys. Chem., 97:14 (2023), 3426
Youssef H. Abdelalim, Ashraf M.Mohamed, Mahmoud A. Hamad, Hatem R. Alamri, Mohamed E. Harb, Sameh M. Elghnam, “The Inverse Magnetocaloric Effect of MgB2 Superconductor”, J Low Temp Phys, 210:1-2 (2023), 325
Mahmoud A. Hamad, Hatem R. Alamri, “From conventional to inverse magnetocaloric effect in GdMn1-xCrxO3”, Journal of Taibah University for Science, 16:1 (2022), 670
Mahmoud A. Hamad, Hatem R. Alamri, “The Inverse and Conventional Magnetocaloric Effects in Ni0.4Cu0.2Zn0.4Fe2-xDyxO4 Nanoferrites Over an Extraordinary Temperature Range”, J. Electron. Mater., 51:7 (2022), 3359
A.M.A. Henaish, O.M. Hemeda, D.E. El Refaay, Sh. Mohamed, Mahmoud A. Hamad, “The strong role of incorporation of Co0.3Mn0.7Fe2O4 into methylcellulose for enhancing the coercivity”, Journal of Magnetism and Magnetic Materials, 561 (2022), 169736
Mahmoud A. Hamad, Hatem R. Alamri, “Magnetocaloric Effect for La0.54Sr0.27Gd0.19MnO3 Nanoparticles at Room and Cryogenic Temperatures”, J Low Temp Phys, 207:3-4 (2022), 181
Youssef H. Abdelalim, Ashraf M. Mohamed, O.M. Hemeda, Mahmoud A. Hamad, Hatem R. Alamri, Mohamed E. Harb, Sameh M. Elghnam, “Simulation of magnetocaloric properties in La1-xBaxCoO3”, Journal of Magnetism and Magnetic Materials, 560 (2022), 169661
Mahmoud A. Hamad, Hatem R. Alamri, “Room temperature magnetocaloric effect of Ce0.65Mg0.35Co3”, Journal of Materials Research and Technology, 17 (2022), 2670
Emad M. Ahmed, O. M. Hemeda, Hatem R. Alamri, Sameh M. Elghnam, Mahmoud A. Hamad, “Magnetocaloric Effect in α'-MnB Nanoparticles”, Russ. J. Phys. Chem., 96:S1 (2022), S101

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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