Mössbauer Study of Hyperfine Fields in MnZn Ferritess

Cser, L.; Dézsi, I.; Gladkih, I. A.; Keszthelyi, L.; Kulgawczuk, D.; Eissa, N. A.; Sterk, E.

doi:10.1002/pssb.19680270113

Cited by 45 publications

(5 citation statements)

References 3 publications

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“…2). Recently Czer et al [17] proposed a static model for the interpretation of the Mossbauer spectra of manganese zinc ferrites. I n their model the spectra are composed by up t o four ideal Zeeman spectra with quite different internal field temperature dependences, related to the zinc ions distribution.…”

Section: Mossbauer Spectrometry Resultsmentioning

confidence: 99%

Study of the Sublattices Magnetisations in Mn_0.6Zn_0.4Fe₂O₄ by Neutron Diffractometry and Mössbauer Spectrometry

König

Gros

Chol³

1969

Physica Status Solidi (b)

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The temperature dependence of the two sublattices magnetisations of Mn,,,Zn,,,Fe,O, was determined in order to study the superexchange interactions in Mn2+-02+-Fe3+ linkages. The tetrahedral and octahedradl sublattices magnetisations were obtained in absolute scale by neutron diffractometry. Moreover by Mossbauer spectrometry the octahedral sublattice magnetisation was determined in a relative scale as il function of temperature. The results obtained by both methods show the same temperature dependences within the experimental accuracy. The Mossbauer spectra recorded a t temperatures higher than 100 O K show line broadening and overlapping indicating relaxation effects. The molecular field parameters were deduced from the experimental results on the basis of the N6el model. The best agreement is found for JAA = 0, JAB = (-19 f 1) OK, and JBB = (4.7 2) "K. The failing B moment and the evidence for a positive B-B interaction are discussed. Zum Studium des Superaustausches in Mn2+-02+-Fe3+-Zweigen haben wir die Temperaturabhangigkeiten der spontanenMagnetisierungen der beiden Untergitter des kubischen Ferrites Mn,,,Zn,,,Fe,O, bestimmt. Durch Neutronenbeugungsmessungen erhielten wir die Magnetisierungen der Tetraeder-und Oktaederuntergitter in absoluter Skalierung. Mit Hilfe des Mossbauereffektes haben wir die Magnetisierung des Oktaederuntergitters gemessen. Beide Methoden liefern iibereinstimmende Ergebnisse. Die Mossbauerspektren zeigen bei hoheren Temperaturen Linienverbreiterungen, die durch Spinflip-Prozesse gedeutet werden. Die Temperaturverlaufe der Untergittermagnetisierungen lassen sich durch eine Molekularfeldberechnung (NBelsches Modell) mit den Austauschparametern J A A = 0, JAB = (-19 5 1) O K und JBB = (4,7 & 2) "K beschreiben.

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Section: Mossbauer Spectrometry Resultsmentioning

confidence: 99%

Study of the Sublattices Magnetisations in Mn_0.6Zn_0.4Fe₂O₄ by Neutron Diffractometry and Mössbauer Spectrometry

König

Gros

Chol³

1969

Physica Status Solidi (b)

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“…In view of the area under peaks of the A-and B-sites (Table 1) and the well-known site preference [20] of ions, where the recoil fractions fA and fs for the absorber are relatively small, it is clear that Mn2+ ions give rise to inversion in the spinel [l to 111. The cation distribution proposed for this ferrite system is given in Table 2.…”

Section: Mossbauer Spectramentioning

confidence: 99%

Mössbauer, infrared, and X-ray studies of the MnZn ferrites

Amer

1995

Phys. Stat. Sol. (a)

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Manganese‐zinc ferrite Mn1−xZnxFe2O4 with different values of x is prepared by the usual ceramic technique. X‐ray analysis shows that the samples are cubic spinels (single phase). The lattice parameter, the theoretical density, the bulk density, and the porosity are deduced and their variation with Zn2+ additions is studied. The samples are studied by Mössbauer spectroscopy. The effect of a variation of Zn2+ concentration on the various hyperfine interactions is discussed. The cation distribution of the compounds is deduced. The infrared spectra of the samples in the range 200 to 4000 cm−1 are reported. Four bands v1, v2, v3, and v4 are observed. The high‐frequency band v1 is assigned to the tetrahedral complexes, v2 and v3 to the octahedral complexes and octahedral divalent metal oxygen ion complexes, respectively. The lowest band v4 is attributed to the lattice vibrations of the system.

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“…This kind of behsviour needs chemical disorder or multiple sites for iron, and is not observed in the normal spinel ZnFe,O, ; b) if, as observed in ZnFe,O, (Fig. l), broadening has very much decreased near 0 OK, it may be assumed that H, and the reduced magnetization are proportional with the same coefficient everywhere in the sample: a.t the B site of the partly inverse spinels Co, Mn, Mg ferrites [6], and of Zn-Mn ferrite [7] a spreading of exchange interactions is evoked to explain the observed broadening. I n FeF, relaxation phenomena have been evoked [8] : however the broadening depends on the quality of the preparation and it seems more reasonable to admit a spreading of T, due to some inhomogeneity of the samples [9].…”

Section: Introductionmentioning

confidence: 81%

Magnetic Field Distribution Analysis of the Broadened Mössbauer Spectra of Zinc Ferrite

Varret

Gérard

Imbert

1971

Physica Status Solidi (b)

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I n some magnetically ordered compounds, broadened Mossbauer spectra are interpreted as arising from hyperfine field (H,) distributions. These distributions measured at several temperatures are used to determine both a possible distribution of transition temperatures in the sample aa well as the set of curves of H, as a function of temperature. The method of calculation is applied to ZnFe,O,. Les spectres Mossbauer Blargis de certains mrnpos& magnbtiquea peuvent traduire des distributions du champ megnbtique interne ( H J . Ayant d6termin6 les distributions deIf, diffhrentes tempbratures, il est possible d'en dbduire ir la fois une 6ventuelle distribution de la tempbrature de transition ( TN) dens 1'6chantillon e t le r6seau des courbes donnant 1'6volution thermique de H,. Kous avons applique la m6thode B l'btude de ZnF%O,.

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Mössbauer Study of Hyperfine Fields in MnZn Ferritess

Cited by 45 publications

References 3 publications

Study of the Sublattices Magnetisations in Mn_0.6Zn_0.4Fe₂O₄ by Neutron Diffractometry and Mössbauer Spectrometry

Study of the Sublattices Magnetisations in Mn_0.6Zn_0.4Fe₂O₄ by Neutron Diffractometry and Mössbauer Spectrometry

Mössbauer, infrared, and X-ray studies of the MnZn ferrites

Magnetic Field Distribution Analysis of the Broadened Mössbauer Spectra of Zinc Ferrite

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Mössbauer Study of Hyperfine Fields in MnZn Ferritess

Cited by 45 publications

References 3 publications

Study of the Sublattices Magnetisations in Mn0.6Zn0.4Fe2O4 by Neutron Diffractometry and Mössbauer Spectrometry

Study of the Sublattices Magnetisations in Mn0.6Zn0.4Fe2O4 by Neutron Diffractometry and Mössbauer Spectrometry

Mössbauer, infrared, and X-ray studies of the MnZn ferrites

Magnetic Field Distribution Analysis of the Broadened Mössbauer Spectra of Zinc Ferrite

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Study of the Sublattices Magnetisations in Mn_0.6Zn_0.4Fe₂O₄ by Neutron Diffractometry and Mössbauer Spectrometry

Study of the Sublattices Magnetisations in Mn_0.6Zn_0.4Fe₂O₄ by Neutron Diffractometry and Mössbauer Spectrometry