Magnetism of (Fe,Co)-Based Alloys with the La6Co11Ga3-Type

Weitzer, F.; Leithe‐Jasper, Andreas; Rogl, P.; Hiebl, K.; Noël, H.; Wiesinger, G.; Steiner, Walter

doi:10.1006/jssc.1993.1172

Cited by 62 publications

(50 citation statements)

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“…The only di!erence between the two structures is the uniaxial structure found for the Nd Fe Sn compound. The easy magnetization direction of the latter compound agrees with results of MoK ssbauer spectroscopy [13]. It is also consistent with a model description proposed in Ref.…”

Section: Discussionsupporting

confidence: 91%

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Magnetic ordering of the R6Fe13Sn (R=Nd, Pr) compounds studied by neutron diffraction

Schobinger‐Papamantellos

Buschow

Groot

et al. 2000

Journal of Magnetism and Magnetic Materials

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The magnetic ordering of Nd Fe Sn and Pr Fe Sn powder samples was investigated by neutron di!raction. The data analysis reveals a collinear antiferromagnetic magnetic moment arrangement of the four Fe and the two R sublattices associated with the wave vector q"(0 0 1) corresponding to the I . magnetic lattice with anticentering translation. The moments of all sublattices located at (x y 0) layers, sandwiched between successive Sn layers perpendicular to z at z"!0.25, 0.25 are con"ned to the same direction. These ferromagnetic blocks change their direction collectively when going to the next Sn layers at z"0.25, 0.75. The structures of the two compounds di!er essentially in the preferred direction of antiferromagnetism, which is perpendicular to the c-axis for the Pr Fe Sn compound. For the Nd Fe Sn compound it is along the c-axis for ¹'150 K and 103 o! the c-axis at 1.5 K. The moment values of the R atoms at 1.5 K are 3.06(7) and 2.45(4) /Nd atom 2.9(1) and 2.70(1) /Pr atom while the average value of the ordered Fe moment is 2.4 /Fe for both compounds, in satisfactory agreement with MoK ssbauer results.

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Section: Discussionsupporting

confidence: 91%

“…After correction, the latter Fe1 moments are in good agreement with those found for Pr Fe Sn and Nd Fe Sn in the course of the present investigation. Also, there is much better agreement with the large hyper"ne "elds reported in MoK ssbauer investigations for this Fe site [13,14].…”

Section: Discussionsupporting

confidence: 75%

Magnetic ordering of the R6Fe13Sn (R=Nd, Pr) compounds studied by neutron diffraction

Schobinger‐Papamantellos

Buschow

Groot

et al. 2000

Journal of Magnetism and Magnetic Materials

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“…1. These spectra and those of Nd 6 Fe 13 Cu are very similar to those 3 of Nd 6 Fe 13 Au and have been analyzed in a similar fashion. Because the iron magnetic moments are oriented in the basal plane of the unit cell, the 16k sites are magnetically inequivalent and, because of their point symmetry, are subdivided into two eightfold populated sites, labelled 16k and 16kЈ herein.…”

Section: Resultsmentioning

confidence: 64%

“…1 Nd 6 Fe 13 Au was first reported 2 to be ferromagnetic below 340 K and later 3 to be antiferromagnetic below 413 K. Nd 6 Fe 13 Si was first 1 reported to be antiferromagnetic below 725 K and later 4 to be ferrimagnetic with a Curie temperature of 441 K, a compensation point of 357 K, and to have iron magnetic moments parallel to the tetragonal c axis at room temperature. Nd 6 Fe 13 Ag shows 2 ferromagnetic behavior below 340 K. Nd 6 Fe 13 Cu has 5 a complex noncolinear magnetic structure with a Curie temperature of 463 K. This range of controversial magnetic behaviors has prompted us to extend our earlier 3 Mössbauer spectral study of Nd 6 Fe 13 Au.…”

Section: Introductionmentioning

confidence: 99%

“…The compounds Nd 6 Fe 13 X, where X is Si, Cu, Ag, and Au crystallize in the tetragonal Nd 6 Fe 13 Si structure. 1 Nd 6 Fe 13 Au was first reported 2 to be ferromagnetic below 340 K and later 3 to be antiferromagnetic below 413 K. Nd 6 Fe 13 Si was first 1 reported to be antiferromagnetic below 725 K and later 4 to be ferrimagnetic with a Curie temperature of 441 K, a compensation point of 357 K, and to have iron magnetic moments parallel to the tetragonal c axis at room temperature.…”

Section: Introductionmentioning

confidence: 99%

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A Mössbauer spectral study of the Nd6Fe13X compounds where X is Si, Cu, Ag, and Au

Hautot

Long

Grandjean

et al. 1997

Journal of Applied Physics

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The Mössbauer spectra of Nd 6 Fe 13 X, where X is Si, Cu, Ag, and Au, have been measured between 85 and 435 K. An analysis of the spectra of Nd 6 Fe 13 X, where X is Cu, Ag, and Au in terms of five sextets, indicates that the iron moments lie in the basal plane of the unit cell. The assignment of the five sextets to the five magnetically inequivalent sites in the structure is based on a correlation between the isomer shift and the Wigner-Seitz cell volume for all iron sites, between the isomer shift and the hyperfine field for each site, and the relationship between the hyperfine field at a given iron site and its number of iron near-neighbors. An analysis of the spectra of Nd 6 Fe 13 Si reveals that a high temperature magnetic phase, with its moments parallel to the c axis, coexists between 295 and 85 K with a low temperature magnetic phase, with its moments oriented in the basal plane. Hence, Nd 6 Fe 13 Si shows a continuous magnetic spin-reorientation from axial towards basal alignment upon cooling.

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Crystal Growth, Transport, and Magnetic Properties of Ln₃Co₄Sn₁₃ (Ln: La, Ce) with a Perovskite‐Like Structure.

et al. 2006

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Magnetism of (Fe,Co)-Based Alloys with the La6Co11Ga3-Type

Cited by 62 publications

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Magnetic ordering of the R6Fe13Sn (R=Nd, Pr) compounds studied by neutron diffraction

Magnetic ordering of the R6Fe13Sn (R=Nd, Pr) compounds studied by neutron diffraction

A Mössbauer spectral study of the Nd6Fe13X compounds where X is Si, Cu, Ag, and Au

Crystal Growth, Transport, and Magnetic Properties of Ln₃Co₄Sn₁₃ (Ln: La, Ce) with a Perovskite‐Like Structure.

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Magnetism of (Fe,Co)-Based Alloys with the La6Co11Ga3-Type

Cited by 62 publications

References 0 publications

Magnetic ordering of the R6Fe13Sn (R=Nd, Pr) compounds studied by neutron diffraction

Magnetic ordering of the R6Fe13Sn (R=Nd, Pr) compounds studied by neutron diffraction

A Mössbauer spectral study of the Nd6Fe13X compounds where X is Si, Cu, Ag, and Au

Crystal Growth, Transport, and Magnetic Properties of Ln3Co4Sn13 (Ln: La, Ce) with a Perovskite‐Like Structure.

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Crystal Growth, Transport, and Magnetic Properties of Ln₃Co₄Sn₁₃ (Ln: La, Ce) with a Perovskite‐Like Structure.