Magnetic States of Two-Phase Synthesized Fe mO n–Fe3 –xTi xO4 Particles: Experimental and Theoretical Analysis

P. V. Kharitonskii; A. A. Kosterov; A. K. Gurylev; K. G. Gareev; S. A. Kirillova; N. A. Zolotov; Yu A. Anikieva

doi:10.1134/S1063783420090139

Magnetic States of Two-Phase Synthesized Fe_mO_n–Fe_3 –_xTi_xO₄ Particles: Experimental and Theoretical Analysis

P. V. Kharitonskii, A. A. Kosterov, A. K. Gurylev, K. G. Gareev, S. A. Kirillova, N. A. Zolotov, Yu A. Anikieva

Research output

Abstract

Abstract: Composites Fe_mO_n–Fe_3 – _xTi_xO₄ have been synthesized using the sol–gel method and hydrothermal treatment. The conditions chosen for the synthesis favor the formation of composites containing titanomagnetite in a relatively low concentration. The theoretical analysis of the magnetic properties of the composites is performed based on the hysteresis curves and the temperature dependences of the remanent magnetization using the cluster model of magnetostatically interacting two-phase particles.

Original language	English
Pages (from-to)	1691-1694
Number of pages	4
Journal	Physics of the Solid State
Volume	62
Issue number	9
DOIs	https://doi.org/10.1134/S1063783420090139
Publication status	Published - 1 Sep 2020

Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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@article{824aafb35d6442909ec06ab67570654f,

title = "Magnetic States of Two-Phase Synthesized Fe mO n–Fe3 –xTi xO4 Particles: Experimental and Theoretical Analysis",

abstract = "Abstract: Composites FemOn–Fe3 – xTixO4 have been synthesized using the sol–gel method and hydrothermal treatment. The conditions chosen for the synthesis favor the formation of composites containing titanomagnetite in a relatively low concentration. The theoretical analysis of the magnetic properties of the composites is performed based on the hysteresis curves and the temperature dependences of the remanent magnetization using the cluster model of magnetostatically interacting two-phase particles.",

keywords = "hydrothermal treatment, low-temperature measurements, magnetostatic interaction, sol–gel method",

author = "Kharitonskii, {P. V.} and Kosterov, {A. A.} and Gurylev, {A. K.} and Gareev, {K. G.} and Kirillova, {S. A.} and Zolotov, {N. A.} and Anikieva, {Yu A.}",

year = "2020",

month = sep,

day = "1",

doi = "10.1134/S1063783420090139",

language = "English",

volume = "62",

pages = "1691--1694",

journal = "Physics of the Solid State",

issn = "1063-7834",

publisher = "МАИК {"}Наука/Интерпериодика{"}",

number = "9",

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TY - JOUR

T1 - Magnetic States of Two-Phase Synthesized Fe mO n–Fe3 –xTi xO4 Particles: Experimental and Theoretical Analysis

AU - Kharitonskii, P. V.

AU - Kosterov, A. A.

AU - Gurylev, A. K.

AU - Gareev, K. G.

AU - Kirillova, S. A.

AU - Zolotov, N. A.

AU - Anikieva, Yu A.

PY - 2020/9/1

Y1 - 2020/9/1

N2 - Abstract: Composites FemOn–Fe3 – xTixO4 have been synthesized using the sol–gel method and hydrothermal treatment. The conditions chosen for the synthesis favor the formation of composites containing titanomagnetite in a relatively low concentration. The theoretical analysis of the magnetic properties of the composites is performed based on the hysteresis curves and the temperature dependences of the remanent magnetization using the cluster model of magnetostatically interacting two-phase particles.

AB - Abstract: Composites FemOn–Fe3 – xTixO4 have been synthesized using the sol–gel method and hydrothermal treatment. The conditions chosen for the synthesis favor the formation of composites containing titanomagnetite in a relatively low concentration. The theoretical analysis of the magnetic properties of the composites is performed based on the hysteresis curves and the temperature dependences of the remanent magnetization using the cluster model of magnetostatically interacting two-phase particles.

KW - hydrothermal treatment

KW - low-temperature measurements

KW - magnetostatic interaction

KW - sol–gel method

UR - http://www.scopus.com/inward/record.url?scp=85090897256&partnerID=8YFLogxK

U2 - 10.1134/S1063783420090139

DO - 10.1134/S1063783420090139

M3 - Article

AN - SCOPUS:85090897256

VL - 62

SP - 1691

EP - 1694

JO - Physics of the Solid State

JF - Physics of the Solid State

SN - 1063-7834

IS - 9

ER -