Magnetic Properties of Iron Oxide Nanoparticles in the Matrix of Potassium–Aluminoborate Glasses Subjected to Thermoradiation Treatment

Magnetic Properties of Iron Oxide Nanoparticles in the Matrix of Potassium–Aluminoborate Glasses Subjected to Thermoradiation Treatment

The paper presents the results of studying magnetic properties of the K O Al O B O (KAB) glasses with the addition of 2.0 and 3.0 wt Fe O , subjected to radiation treatment in Co gamma-field at a dose rate of 236 R/s for 2 h at room temperature and when the samples are heated to 423 K. Under both ra...

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Bibliographic Details
Published in:Moscow University physics bulletin Vol. 78; no. 4; pp. 527 - 530
Main Authors: Salakhitdinova, M. K., Ibragimova, E. M., Kuvandikov, O. K.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-08-2023
Springer Nature B.V
Subjects:
Antiferromagnetism
Coercivity
Dosage
Hysteresis
Iron oxides
Low temperature
Magnetic permeability
Magnetic properties
Magnetization
Mathematical and Computational Physics
Nanoparticles
Optical properties
Physics
Physics and Astronomy
Radiation
Room temperature
Theoretical
magnetization curves
effective magnetic moment
potassium aluminoborate glasses
magnetic susceptibility
iron oxide nanoparticles
thermoradiation treatment
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Summary:The paper presents the results of studying magnetic properties of the K O Al O B O (KAB) glasses with the addition of 2.0 and 3.0 wt Fe O , subjected to radiation treatment in Co gamma-field at a dose rate of 236 R/s for 2 h at room temperature and when the samples are heated to 423 K. Under both radiation and thermoradiation exposure, the magnetic susceptibility of glasses follows the Curie–Weiss law at 4.2–200 K and slightly deviates from this dependence at 200–340 K. The weakly pronounced magnetic hysteresis with low coercive force was found at low temperatures against the background of magnetization that depends almost linearly on the field. The analysis of data on the temperature and field dependences of magnetization in weak and strong fields, combined with data on structural and optical properties, indi-cates that mainly Fe O nanoparticles in the uncompensated antiferromagnetic state, as well as an insignificant amount of dissociated Fe and Fe O ions, are formed in glasses.
ISSN:0027-1349
1934-8460
DOI:10.3103/S002713492304015X