Magnetic anisotropy and magnetic properties of RTSi (R=Gd, Y; T=Mn, Fe) compounds

Никитин, С.А.; Иванова, Т. И.; Tskhadadze, I.A; Skokov, Konstantin P.; Telegina, I. V.

doi:10.1016/s0925-8388(98)00661-6

Cited by 13 publications

(9 citation statements)

References 9 publications

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“…These results coincide also with previous data [3,5,6]. The value of the effective magnetic moment μ eff is equal to 8.13μ B , which indicates the contribution of both Gd and Mn sublattices into magnetic moment of this compound.…”

Section: Resultssupporting

confidence: 92%

Magnetic ordering and magnetic transitions in GdMnSi compound

Ovtchenkova

Никитин

Иванова

et al. 2008

Journal of Alloys and Compounds

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Section: Resultssupporting

confidence: 92%

Magnetic ordering and magnetic transitions in GdMnSi compound

Ovtchenkova

Никитин

Иванова

et al. 2008

Journal of Alloys and Compounds

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“…К материалам подобного типа относятся ферромагнитные интерметаллиды GdFeAl и GdFeSi (точки Кюри T C соответственно, 265 и 130 K). В данных соединениях наблюдается целый ряд физических явлений, связанных с образованием различных кристаллических структур и магнитных фаз [4][5][6][7][8][9]. При этом магнитные моменты обеих систем определяются атомами Gd, поскольку атомы Fe, вследствие полного заполнения 3d-зоны, не обладают магнитным моментом.…”

Section: Introductionunclassified

“…Сплавление данных соединений с другими металлами, а также внешние воздействия приводят к заметным изменениям кристаллических параметров и магнитных характеристик [5,14,[16][17][18][19][20]. Например, замещение Fe атомами Mn в GdFeSi влечет за собой увеличение размеров решетки, рост результирующего магнитного момента и значительное повышение T C [7,19]. При абсорбции водорода в данном соединении происходит его структурный переход к другой тетрагональной фазе типа ZrCuSiAs с анизотропным изменением параметров решетки и резким уменьшением температуры Кюри, а механическое измельчение приводит к образованию фазы аморфного магнетизма с T C = 65 K [17,18].…”

Section: Introductionunclassified

Электронная структура и оптические спектры соединений GdFeAl и GdFeSi

Князев¹,

Лукоянов²,

Кузьмин³

et al. 2021

Физика Твердого Тела

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Results of investigations of electronic structure and optical properties of GdFeAl and GdFeSi compounds are presented. Spin-plarized density of states and interband optical conductivity spectra were calculated in frame of DFT+U technique with a correction for strong correlation effects in 4f shell of Gd. Optical properties were measured by ellipsometric technique in wavelength interval of 0.22 – 16 μm. Nature of quantum light absorption is discussed on the base of comparative analysis of experimental and calculated spectra. It is shown that main features of frequency dependencies of the optical conductivity are interpret qualitatively by the calculated density of electronic states.

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“…Materials of this type include the ferromagnetic intermetallides GdFeAl and GdFeSi (Curie points T C , 265 and 130 K, respectively). A number of physical phenomena associated with the formation of various crystal structures and magnetic phases are observed in these compounds [4][5][6][7][8][9]. In this case, the magnetic moments of both systems are determined by the Gd atoms, since the Fe atoms, due to the complete filling of the 3d zone, do not have a magnetic moment.…”

Section: Introductionmentioning

confidence: 99%

Electronic Structure and Optical Spectra of GdFeAl and GdFeSi Compounds

et al. 2021

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The results of studies of the electronic structure and optical properties of intermetallic compounds GdFeAl and GdFeSi are presented. The spin-polarized densities of electronic states and interband optical conductivity spectra are calculated using the DFT+U method, taking into account the influence of strong electronic interactions in the 4f-shell of Gd. The optical properties of these materials are studied by ellipsometry in the wavelength range 0.22-16 μm. The nature of light absorption is discussed on the basis of a comparative analysis of experimental and theoretical spectra. It is shown that the calculated densities of electronic states makes it possible to interpret qualitatively the main features of the frequency dependences of optical conductivity.

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Magnetic anisotropy and magnetic properties of RTSi (R=Gd, Y; T=Mn, Fe) compounds

Cited by 13 publications

References 9 publications

Magnetic ordering and magnetic transitions in GdMnSi compound

Magnetic ordering and magnetic transitions in GdMnSi compound

Электронная структура и оптические спектры соединений GdFeAl и GdFeSi

Electronic Structure and Optical Spectra of GdFeAl and GdFeSi Compounds

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