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Influence of disorder at Insulator-Metal interface on spin transport

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2024

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http://arxiv.org/abs/2403.19277

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Deutsche Forschungsgemeinschaft (DFG): 17034116

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Motivated by experimental work showing enhancement of spin transport between Yttrium Iron Garnet and Platinum by a thin antiferromagnetic insulator between them, we consider spin transport through the interface of a non-magnetic metal and compensated antiferromagnetically ordered insulator and focus on the significance of the interface itself. The spin transport is carried by spin-polarized electrons in the metal and by magnons in the insulator. We compute the spin current in the presence of a spin accumulation in the metal, cause by the spin Hall effect, and a thermal gradient using Fermi's Golden Rule in the presence of interfacial disorder. For a perfectly clean interface, the in-plane momentum is conserved by the electron-magnon scattering events that govern the spin transport through the interface. We calculate how disorder-induced broadening of scattering matrix elements with respect to the in-plane momentum influences the spin current. As a general result, we observe that for many experimental setups, specifically for high temperatures, one should expect a rather small effect of interface disorder on the measured spin current, while for small temperatures there is a significant reduction of a spin current with increasing disorder.

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530 Physik

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Mesoscale and Nanoscale Physics, Quantum Physics, Spin transport

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ISO 690SEYED HEYDARI, Mahsa, Wolfgang BELZIG, Niklas ROHLING, 2024. Influence of disorder at Insulator-Metal interface on spin transport
BibTex
@unpublished{SeyedHeydari2024-03-28Influ-69739,
  year={2024},
  title={Influence of disorder at Insulator-Metal interface on spin transport},
  author={Seyed Heydari, Mahsa and Belzig, Wolfgang and Rohling, Niklas}
}
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    <dcterms:title>Influence of disorder at Insulator-Metal interface on spin transport</dcterms:title>
    <dcterms:abstract>Motivated by experimental work showing enhancement of spin transport between Yttrium Iron Garnet and Platinum by a thin antiferromagnetic insulator between them, we consider spin transport through the interface of a non-magnetic metal and compensated antiferromagnetically ordered insulator and focus on the significance of the interface itself. The spin transport is carried by spin-polarized electrons in the metal and by magnons in the insulator. We compute the spin current in the presence of a spin accumulation in the metal, cause by the spin Hall effect, and a thermal gradient using Fermi's Golden Rule in the presence of interfacial disorder. For a perfectly clean interface, the in-plane momentum is conserved by the electron-magnon scattering events that govern the spin transport through the interface. We calculate how disorder-induced broadening of scattering matrix elements with respect to the in-plane momentum influences the spin current. As a general result, we observe that for many experimental setups, specifically for high temperatures, one should expect a rather small effect of interface disorder on the measured spin current, while for small temperatures there is a significant reduction of a spin current with increasing disorder.</dcterms:abstract>
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