Magnon excitation-induced spin memory loss in epitaxial L10-FePt/MgO/L10-FePt magnetic tunnel junctions

Magnon excitation-induced spin memory loss in epitaxial L10-FePt/MgO/L10-FePt magnetic tunnel junctions

This work investigates the interplay between interfacial spin–orbit coupling (SOC) and magnon excitation-induced spin memory loss in epitaxial L10-FePt/MgO/L10-FePt magnetic tunnel junctions, which is crucial for advancing spintronic technologies. By employing systematic temperature-dependent transp...

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Veröffentlicht in:Applied physics letters 2024-08, Vol.125 (9)
Hauptverfasser: Yang, Guang, Zhao, Yunchi, Qi, Jie, Zhang, Yi, Shao, Bokai, Wang, Shouguo
Format: Artikel
Sprache:eng
Schlagworte:
Electron spin
Electron tunneling
Excitation
Excitation spectra
Intermetallic compounds
Iron compounds
Magnesium oxide
Magnetoresistivity
Magnons
Platinum compounds
Spin-orbit interactions
Temperature dependence
Tunnel junctions
Tunnel magnetoresistance
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Zusammenfassung:This work investigates the interplay between interfacial spin–orbit coupling (SOC) and magnon excitation-induced spin memory loss in epitaxial L10-FePt/MgO/L10-FePt magnetic tunnel junctions, which is crucial for advancing spintronic technologies. By employing systematic temperature-dependent transport measurements and inelastic electron tunneling spectroscopy, our study reveals that interfacial SOC at the Pt-terminated FePt/MgO interface significantly enhances magnon excitation during electron tunneling. This process results in a pronounced loss of spin memory in the spin-polarized current, diminishing the tunnel magnetoresistance ratio. Our findings provide critical insights into the mechanisms of spin memory loss, offering directions for optimizing spintronic device performance in the context of pronounced SOC environments.
ISSN:0003-6951
1077-3118
DOI:10.1063/5.0209236