Nanostructured MnGa films on Si/SiO2 with 20.5 kOe room temperature coercivity

Zha, Chaolin; Dumas, Randy K.; Lau, June W.; Mohseni, Seyed Majid; Sani, Sohrab R.; Golosovsky, I. V.; Monsen, Å. F.; Nogués, J.; Åkerman, Johan

doi:10.1063/1.3656457

Cited by 39 publications

(32 citation statements)

References 26 publications

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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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Section: Introductionmentioning

confidence: 92%

High coercivity in Mn-Ga-Cu alloys

Saito

Nishio–Hamane

2016

AIP Advances

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“…Mn-based compounds, such as the Mn-Ga, Mn-Bi, and Mn-Al magnets, have attracted attention as a possible alternative to rare-earth permanent-magnet materials because of their convenience [3][4][5][6][7][8][9]. Of these compounds, the Mn-Ga magnet is a relatively new material and its magnetic property has been intensively investigated in recent years [10][11][12][13][14][15][16]. We also reported the synthesis of a Mn-Ga magnet consisting of the D0 22 -type Mn 3 Ga phase by employing a melt-spinning technique when studying the Mn-based magnets [17].…”

Section: Introductionmentioning

confidence: 99%

New hard magnetic phase in Mn–Ga–Al system alloys

Saito

Nishio–Hamane

2015

Journal of Alloys and Compounds

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“…The growth of islands can be attributed to the large lattice mismatch between the Ru underlayer and Mn 3 Sn film, which is 5.26%. Furthermore, the kinetic conditions (i.e., growth rate, temperature, and atomic mobility) during thin-film deposition may affect the morphology of the films, similar to the case of Mn 3 Ga [34].…”

Section: B Tem Analysismentioning

confidence: 99%

Noncollinear antiferromagnetic Mn3Sn films

Μάρκου

Taylor

Kalache

et al. 2018

Phys. Rev. Materials

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Noncollinear hexagonal antiferromagnets with almost zero net magnetization were recently shown to demonstrate giant anomalous Hall effect. Here, we present the structural and magnetic properties of noncollinear antiferromagnetic Mn 3 Sn thin films heteroepitaxially grown on Y:ZrO 2 (111) substrates with a Ru underlayer. The Mn 3 Sn films were crystallized in the hexagonal D0 19 structure with c-axis preferred (0001) crystal orientation. The Mn 3 Sn films are discontinuous, forming large islands of approximately 400 nm in width, but are chemical homogeneous and characterized by near perfect heteroepitaxy. Furthermore, the thin films show weak ferromagnetism with an in-plane uncompensated magnetization of M = 34 kA/m and coercivity of μ 0 H c = 4.0 mT at room temperature. Additionally, the exchange bias effect was studied in Mn 3 Sn/Py bilayers. Exchange bias fields up to μ 0 H EB = 12.6 mT can be achieved at 5 K. These results show Mn 3 Sn films to be an attractive material for applications in antiferromagnetic spintronics.

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Nanostructured MnGa films on Si/SiO2 with 20.5 kOe room temperature coercivity

Cited by 39 publications

References 26 publications

High coercivity in Mn-Ga-Cu alloys

High coercivity in Mn-Ga-Cu alloys

New hard magnetic phase in Mn–Ga–Al system alloys

Noncollinear antiferromagnetic Mn3Sn films

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