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Literature DB >> 18352731

Intrinsic spin Hall effect in platinum: first-principles calculations.

G Y Guo¹, S Murakami, T-W Chen, N Nagaosa.

Abstract

Spin Hall effect (SHE) is studied with first-principles relativistic band calculations for platinum, which is one of the most important materials for metallic SHE and spintronics. We find that intrinsic spin Hall conductivity (SHC) is as large as approximately 2000(variant Planck's over 2 pi/e)(Omega cm)(-1) at low temperature and decreases down to approximately 200(variant Planck's over 2 pi/e)(Omega cm)(-1) at room temperature. It is due to the resonant contribution from the spin-orbit splitting of the doubly degenerated d bands at high-symmetry L and X points near the Fermi level. By modeling these near degeneracies by an effective Hamiltonian, we show that SHC has a peak near the Fermi energy and that the vertex correction due to impurity scattering vanishes. We therefore argue that the large SHE observed experimentally in platinum is of intrinsic nature.

Entities: Chemical

Year: 2008 PMID： 18352731 DOI： 10.1103/PhysRevLett.100.096401

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

10 in total

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4. Large anomalous Hall effect driven by a nonvanishing Berry curvature in the noncolinear antiferromagnet Mn3Ge.

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Intrinsic spin Hall effect in platinum: first-principles calculations.

1. The spin Hall effect as a probe of nonlinear spin fluctuations.

2. Interface-Induced Phenomena in Magnetism.

3. Near-unity spin Hall ratio in Ni _x Cu_1-x alloys.

4. Large anomalous Hall effect driven by a nonvanishing Berry curvature in the noncolinear antiferromagnet Mn3Ge.

5. Asymmetric magnetic proximity effect in a Pd/Co/Pd trilayer system.

6. Theory of Large Intrinsic Spin Hall Effect in Iridate Semimetals.

7. The spin Nernst effect in tungsten.

8. Tunable inverse spin Hall effect in nanometer-thick platinum films by ionic gating.

9. Magnetic Moments and Electron Transport through Chromium-Based Antiferromagnetic Nanojunctions.

10. Topological flat bands in frustrated kagome lattice CoSn.