Interface-Dependent Spin-Reorientation Energy Barrier in Fe/MgO(001) Thin Film

Choi, Heechae; Lee, Eung-Kwan; Cho, Sung Beom; Yoo, Dong Su; Chung, Yong‐Chae

doi:10.1109/led.2011.2160148

Cited by 8 publications

(3 citation statements)

References 20 publications

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“…4(e)]. Hence, we reason that the changed MAE of Fe/graphene heterostructure by the biaxial strain also results from the state shifts in these orbitals, which is comparable with the case of Fe monolayer on oxide 28) and metal substrate 29) where only 3d z 2 orbitals contributed to the MAE change of Fe.…”

Section: Resultssupporting

confidence: 52%

Magnetic Properties of Iron on Strained Graphene: Density Functional Theory Study

Choi

Yoo

Chung

2012

Jpn. J. Appl. Phys.

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Using ab initio calculations, we investigated the effects of strains on the magnetic properties of Fe/graphene heterojunctions. The changed electronic structures of Fe layer by contacting graphene sheet reduced the magnetic anisotropy and increased the magnetic moment of Fe layer. Through the analysis of the electronic density of states of decomposed Fe 3d orbitals and C 2p z orbital, we found that the 3d yz , 3d zx , and 3d z 2 orbitals are attributed to the changed magnetic moment and magnetic anisotropy of Fe/graphene by biaxial strain.

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Section: Resultssupporting

confidence: 52%

Magnetic Properties of Iron on Strained Graphene: Density Functional Theory Study

Choi

Yoo

Chung

2012

Jpn. J. Appl. Phys.

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“…Tuning the optical and magnetic properties of wide band gap oxides is of great scientific and technological interest and has driven robust efforts in defect engineering. − The defects of oxides can change the energy ranges of photoabsorption or emission and can induce intrinsic magnetism without doping. − The photon energies of absorption and emission are significantly influenced by the position of the defect levels, and the intensity of intrinsic magnetism of an undoped oxide is determined by the number of unpaired electron spins at the defect levels. − Therefore, defect-induced magnetic properties of an oxide can be directly correlated with the optical properties.…”

Section: Introductionmentioning

confidence: 99%

Correlated Visible-Light Absorption and Intrinsic Magnetism of SrTiO₃ Due to Oxygen Deficiency: Bulk or Surface Effect?

et al. 2015

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The visible-light absorption and luminescence of wide band gap (3.25 eV) strontium titanate (SrTiO3) are well-known, in many cases, to originate from the existence of natural oxygen deficiency in the material. In this study based on density functional theory (DFT) calculations, we provide, to the best of our knowledge, the first report indicating that oxygen vacancies in the bulk and on the surfaces of SrTiO3 (STO) play different roles in the optical and magnetic properties. We found that the doubly charged state of oxygen vacancy (VO(2+)) is dominant in bulk SrTiO3 and does not contribute to the sub-band gap photoexcitation or intrinsic magnetism of STO. Neutral oxygen vacancies (VO(0)) on (001) surfaces terminated with both TiO2 and SrO layers induce magnetic moments, which are dependent on the charged state of VO. The calculated absorption spectra for the (001) surfaces exhibit mid-infrared absorption (<0.5 eV) and sub-band gap absorption (2.5-3.1 eV) due to oxygen vacancies. In particular, VO(0) on the TiO2-terminated surface has a relatively low formation energy and magnetic moments, which can explain the recently observed spin-dependent photon absorptions of STO in a magnetic circular dichroism measurement [Rice, W. D.; et al. Nat. Mater.13, 481, 2014].

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“…One of the most important properties is exact control of the MA value since the strength of MA of magnetic materials in memory devices determines the recording density limits, such as the writecurrents and error ratios [5]. In the scheme of classical magnetism theory, magnetic thin films prefer the magnetization direction to be parallel to the plane, namely in-plane magnetic anisotropy (IMA) due to the magnetostatic interactions between the atomic spin moments [6].…”

Section: Introductionmentioning

confidence: 99%

Surface structure effect on the magnetic anisotropy of Co/Pd (001) thin film: A first principles study

Choi

Hwang

et al. 2015

Thin Solid Films

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Interface-Dependent Spin-Reorientation Energy Barrier in Fe/MgO(001) Thin Film

Cited by 8 publications

References 20 publications

Magnetic Properties of Iron on Strained Graphene: Density Functional Theory Study

Magnetic Properties of Iron on Strained Graphene: Density Functional Theory Study

Correlated Visible-Light Absorption and Intrinsic Magnetism of SrTiO₃ Due to Oxygen Deficiency: Bulk or Surface Effect?

Surface structure effect on the magnetic anisotropy of Co/Pd (001) thin film: A first principles study

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Interface-Dependent Spin-Reorientation Energy Barrier in Fe/MgO(001) Thin Film

Cited by 8 publications

References 20 publications

Magnetic Properties of Iron on Strained Graphene: Density Functional Theory Study

Magnetic Properties of Iron on Strained Graphene: Density Functional Theory Study

Correlated Visible-Light Absorption and Intrinsic Magnetism of SrTiO3 Due to Oxygen Deficiency: Bulk or Surface Effect?

Surface structure effect on the magnetic anisotropy of Co/Pd (001) thin film: A first principles study

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Correlated Visible-Light Absorption and Intrinsic Magnetism of SrTiO₃ Due to Oxygen Deficiency: Bulk or Surface Effect?