Giant magnetization on Mn<sub>3</sub>Ga ultra-thin films grown by magnetron sputtering on SiO<sub>2</sub>/Si(001)

Gutiérrez-Pérez, Rocío M.; Holguín-Momaca, José T.; Galindo, José Trinidad Elizalde; Espinosa‐Magaña, F.; Olive-Méndez, Sion F.

doi:10.1063/1.4916158

Cited by 17 publications

(11 citation statements)

References 20 publications

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“…Besides, AFM measurements show that S3 presents a more homogeneous surface morphology with flat zones, whereas S2 presents a surface morphology with much larger granularity. These effects of the annealing time can induce the observed distinct IP- and OP- M s in agreement with ref . Qualitatively, there is no significant difference between the anisotropic magnetic behavior observed for S2 and S3 at room temperature.…”

Section: Results and Discussionsupporting

confidence: 91%

Effect of Thermal Annealing on the Stoichiometry and Magnetism of Mn–Ga Thin Films

et al. 2019

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Mn x Ga thin films (1.64 ≤ x ≤ 2) were grown at room temperature by molecular beam epitaxy on the native SiO2 layer of Si(100) commercial wafers. After growth, Mn x Ga films were thermally annealed at different temperatures (200, 300, and 400 °C). The X-ray diffraction results reveal D022-Mn2Ga as the main phase and an improvement of the crystalline quality as a function of the annealing temperature. The samples were also investigated using X-ray photoelectron spectroscopy, atomic force microscopy, and vibrating sample magnetometry techniques. The magnetization curves suggest that the magnetic behavior is strongly dependent on the annealing time and temperature and that the saturation magnetization decreases with an increase in the Mn concentration in the alloy. These magnetic properties are related to the morphology and crystallinity of the samples. The magnetic moment distributions of the films were calculated using density functional theory, bringing a better understanding of the origin of the observed magnetic anisotropy.

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Section: Results and Discussionsupporting

confidence: 91%

Effect of Thermal Annealing on the Stoichiometry and Magnetism of Mn–Ga Thin Films

et al. 2019

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“…14 The D0 22 -Mn 3 Ga intermetallic compound has been prepared as film and powder. [15][16][17][18][19][20] A coercivity of 25 kOe has been attained in the D0 22 -Mn 3 Ga film, much higher than that of the L1 0 -MnGa films. Bulk materials with the D0 22 -Mn 3 Ga phase have been produced, but their reported coercivity is not yet comparable to that of the D0 22 -Mn 3 Ga film.…”

Section: Introductionmentioning

confidence: 92%

High coercivity in Mn-Ga-Cu alloys

Saito

Nishio–Hamane

2016

AIP Advances

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Mn-Ga-Cu alloys were produced by melt-spinning and subsequent annealing. The coercivity of the Mn-Ga-Cu alloys was dependent on the Cu content and the annealing conditions. The coercivity of the Mn65Ga20Cu15 alloy annealed at 573 K for 10 h, iHc = 23.8 kOe, was comparable to that of rare-earth-based magnets. The hard magnetic phase of the Mn65Ga20Cu15 alloy was found to be fine D022-Mn3Ga grains, formed from the fcc phase during annealing.

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“…The contribution of this soft FM phase can be fitted, for example, using the Brillouin function ′ J a ( , ) and then subtract it to the experimental data to evaluate the pure FiM component of the film [17]:…”

Section: Resultsmentioning

confidence: 99%

“…The growth chamber is equipped with a reflection high-energy electron diffraction (RHEED) system, from STAIB operating at 30 kV, used to control the film crystalline quality and the lattice deformation. Mn and Ga atomic flux is obtained from a homemade Mn-Ga target fabricated according to the desired composition of the films [17]. A radio-frequency (rf) power source was used to erode the target at 25 W with a corresponding deposition rate of 0.6 nm/min.…”

Section: Methodsmentioning

confidence: 99%

Tailoring magnetization and anisotropy of tetragonal Mn3Ga thin films by strain-induced growth and spin orbit coupling

Gutiérrez-Pérez

Antón

Załęski³

et al. 2018

Intermetallics

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Tetragonal Mn 3 Ga thin films were epitaxially grown with and without strain on Cr and Mo crystalline buffer layers, respectively, using rf-magnetron sputtering. Epilayers grown on Cr with a lattice mismatch of 4.16%, exhibit a high magnetization of 220 kAm −1 and high perpendicular magnetic anisotropy. These characteristics are attributed to interfacial strain. Additionally, a soft ferromagnetic component is observed in these films but not in relaxed layers grown on Mo, where Δa/a is −0.1%. These latest films exhibit a low magnetization of 80 kAm −1 and both perpendicular and in-plane magnetic anisotropies. We propose that high spin orbit coupling of Mo-5s 1 4d 5 orbitals from the buffer layer and strong hybridization with Mn 3+-3d 4 orbitals from the magnetic layer are at the origin of in-plane anisotropy at the interface, while Mn 3 Ga magnetocrystalline anisotropy leads to perpendicular anisotropy on the rest of the film.

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Giant magnetization on Mn₃Ga ultra-thin films grown by magnetron sputtering on SiO₂/Si(001)

Cited by 17 publications

References 20 publications

Effect of Thermal Annealing on the Stoichiometry and Magnetism of Mn–Ga Thin Films

Effect of Thermal Annealing on the Stoichiometry and Magnetism of Mn–Ga Thin Films

High coercivity in Mn-Ga-Cu alloys

Tailoring magnetization and anisotropy of tetragonal Mn3Ga thin films by strain-induced growth and spin orbit coupling

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Giant magnetization on Mn3Ga ultra-thin films grown by magnetron sputtering on SiO2/Si(001)

Cited by 17 publications

References 20 publications

Effect of Thermal Annealing on the Stoichiometry and Magnetism of Mn–Ga Thin Films

Effect of Thermal Annealing on the Stoichiometry and Magnetism of Mn–Ga Thin Films

High coercivity in Mn-Ga-Cu alloys

Tailoring magnetization and anisotropy of tetragonal Mn3Ga thin films by strain-induced growth and spin orbit coupling

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Product

Resources

About

Giant magnetization on Mn₃Ga ultra-thin films grown by magnetron sputtering on SiO₂/Si(001)