Spin-transfer and spin-orbit torques in the Landau–Lifshitz–Gilbert equation

Meo, Andrea; Cronshaw, Carenza E; Jenkins, Sarah; Winterburn, Amelia; Evans, Richard F. L.

doi:10.1088/1361-648x/ac9c80

Cited by 8 publications

(1 citation statement)

References 49 publications

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“…The magnetic behavior of the spintronic MEMS accelerometer is simulated by numerically integrating two coupled Landau-Lifshitz-Gilbert-Slonczewski (LLGS) equations for the free-and fixed-MTJ [36][37][38], whereas the elastic dynamics is described in Eq. 2:…”

Section: Modelingmentioning

confidence: 99%

Magnetomechanical Accelerometer Based on Magnetic Tunnel Junctions

Meo,

Garescì,

Lopez-Dominguez

et al. 2023

Phys. Rev. Applied

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Accelerometers have widespread applications and are an essential component in many areas such as automotive, consumer electronics and industrial applications. Most commercial accelerometers are based on micro-electromechanical system (MEMS) that are limited in downscaling and power consumption. Spintronics-based accelerometers have been proposed as alternatives, however, current proposals suffer from design limitations that result in reliability issues and high cost. Here we propose spintronic accelerometers with magnetic tunnel junctions (MTJs) as building block, which map accelerations into a measurable voltage across the MTJ terminals. The device exploits elastic and dipolar coupling as a sensing mechanism and the spintronic diode effect for the direct read out of the acceleration. The proposed technology represents a potentially competitive and scalable solution to current capacitive MEMS-based approaches that could lead to a step forward in many of the commercial applications.

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Section: Modelingmentioning

confidence: 99%

Magnetomechanical Accelerometer Based on Magnetic Tunnel Junctions

Meo,

Garescì,

Lopez-Dominguez

et al. 2023

Phys. Rev. Applied

Self Cite

View full text Add to dashboard Cite

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Reservoir Computing with Nanowire Exchange-Coupled Spin Torque Oscillator Arrays

Dale

Evans

Sebald

et al. 2023

Lecture Notes in Computer Science

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Tutorial: Simulating modern magnetic material systems in mumax3

Joos,

Bassirian,

Gypens

et al. 2023

Journal of Applied Physics

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This Tutorial article focuses on magnetic phenomena and material systems that have gained significant importance since the original development of mumax3, but are challenging to simulate for users who rely solely on the originally provided examples. Alongside the physical background, we provide hands-on examples of advanced magnetic systems, including detailed explanations of complete mumax3 input files (13 in total, often showing different ways to achieve things), and highlighting potential pitfalls where applicable. Specifically, we explore two approaches to incorporate spin–orbit torques in mumax simulations, considering the trade-off between versatility and speed. We also examine complex multilayer material stacks, including synthetic antiferromagnets, demonstrating different implementation methods that again vary in speed, versatility, and realism. A key criterion for selecting the optimal simulation strategy is its suitability for modeling systems where the magnetization varies significantly in the third dimension. The material covered in this Tutorial paper includes content developed for the mumax3 workshop presented during the summer of 2020 within the context of the IEEE online spintronics seminar, along with additional new topics. Throughout the explanations, we ensure broad applicability beyond specific examples.

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Spin-transfer and spin-orbit torques in the Landau–Lifshitz–Gilbert equation

Cited by 8 publications

References 49 publications

Magnetomechanical Accelerometer Based on Magnetic Tunnel Junctions

Magnetomechanical Accelerometer Based on Magnetic Tunnel Junctions

Reservoir Computing with Nanowire Exchange-Coupled Spin Torque Oscillator Arrays

Tutorial: Simulating modern magnetic material systems in mumax3

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