Pruckner, B., Jorstad, N. P., Goes, W., Selberherr, S., & Sverdlov, V. (2024). Field-Free Magnetization Switching in SOT-MRAM Devices with Noncollinear Antiferromagnets. In 2024 Austrochip Workshop on Microelectronics (Austrochip) (pp. 1–4). https://doi.org/10.1109/Austrochip62761.2024.10716227
2024 Austrochip Workshop on Microelectronics (Austrochip)
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Event date:
25-Sep-2024 - 26-Sep-2024
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Event place:
Vienna, Austria
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Number of Pages:
4
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Peer reviewed:
Yes
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Keywords:
Spintronics; SOT-MRAM; magnetic Spin Hall effect; field-free switching; Antiferromagnets
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Abstract:
Spin-orbit torque magnetoresistive random access memory (SOT-MRAM) is a promising non-volatile memory technology, offering fast writing speed, low power, and long endurance. However, achieving deterministic perpendicular magnetization switching typically requires an external field, limiting scalability. This work explores the incorporation of noncollinear antiferromagnetic (nc-AFMs), exhibiting the magnetic spin Hall effect (MSHE), and exchange bias to enable field-free deterministic switching. MSHE has been observed in Mn3 Sn, MnPd3 . Exchange bias acting at the interface between in-plane AFM and out-of-plane ferromagnet (FM) has been demonstrated to enable field-free SOT-driven magnetization switching. We present a fully three-dimensional finite element model that couples spin currents and magnetization dynamics to simulate SOT-MRAM devices utilizing the MSHE. We show that the use of nc-AFMs eliminates the need for external fields without compromising performance, simplifying design and boosting scalability.
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Project title:
CD-Labor für Nichtflüchtige magnetisch-resistive Speicher und Logik: P300686 (Christian Doppler Forschungsgesells)
