Dependency of Tunneling-Magnetoresistance Ratio on Nanoscale Spacer Thickness and Material for Double MgO Based Perpendicular-Magnetic-Tunneling-Junction

Dependency of Tunneling-Magnetoresistance Ratio on Nanoscale Spacer Thickness and Material for Double MgO Based Perpendicular-Magnetic-Tunneling-Junction

It was found that in double MgO based perpendicular magnetic tunneling junction spin-valves ex-situ annealed at 400 °C, the tunneling magnetoresistance ratio was extremely sensitive to the material and thickness of the nanoscale spacer: it peaked at a specific thickness (0.40~0.53 nm), and the TMR r...

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Veröffentlicht in:Scientific reports 2016-12, Vol.6 (1), p.38125-38125, Article 38125
Hauptverfasser: Lee, Du-Yeong, Hong, Song-Hwa, Lee, Seung-Eun, Park, Jea-Gun
Format: Artikel
Sprache:eng
Schlagworte:
639/301/357/997
639/925/357/997
Crystallinity
Electrodes
Humanities and Social Sciences
Magnetic fields
Magnetism
multidisciplinary
Random access memory
Science
Valves
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Zusammenfassung:It was found that in double MgO based perpendicular magnetic tunneling junction spin-valves ex-situ annealed at 400 °C, the tunneling magnetoresistance ratio was extremely sensitive to the material and thickness of the nanoscale spacer: it peaked at a specific thickness (0.40~0.53 nm), and the TMR ratio for W spacers (~134%) was higher than that for Ta spacers (~98%). This dependency on the spacer material and thickness was associated with the (100) body-centered-cubic crystallinity of the MgO layers: the strain enhanced diffusion length in the MgO layers of W atoms (~1.40 nm) was much shorter than that of Ta atoms (~2.85 nm) and the shorter diffusion length led to the MgO layers having better (100) body-centered-cubic crystallinity.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep38125