Nanoscale control of temperature operation ranges for magnetocaloric applications

Gallo, Juan Sebastián Salcedo; Berger, Andreas; Quintana, Mikel; Fallarino, Lorenzo

doi:10.1088/1361-6463/abfc88

Cited by 5 publications

(1 citation statement)

References 52 publications

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“…Multiscale atomistic simulation handles the magnetic materials at atomic length scales modeled by the microscopic parameters derived from experiments and ab initio methods [21]. Recently, Salcedo-Gallo et al [22,23] quantitatively assessed the local magnetization profile of exchange-graded materials by using a predictive formulation and evaluated the anisotropic exchange interactions . z J However, calculating long-range near neighboring isotropic exchange interactions using a predictive method is not well-explored for bulk magnetic systems.…”

Section: Introductionmentioning

confidence: 99%

Influence of vacancy type defects on the exchange integrals in ferromagnetic metals: a Monte-Carlo-based approach

Billgates,

Joseyphus

2024

Phys. Scr.

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Estimating exchange interactions in real systems, particularly with defects like vacancies and impurities, poses significant challenges. A classical Monte-Carlo spin simulation within an atomistic machine-learning framework is utilized to predict the pairwise exchange interactions in ideal and defective bcc Fe and fcc Ni systems. The results closely replicate the experimental Curie temperature, with a reduction in exchange interaction by ~1 meV for the system with cluster vacancy concentration up to 6 %. An exponential relationship is established between the classical rescaling parameter α and microscopic exchange interaction enhancing α up to 3.35 and 2.5 in Fe and Ni, respectively. Additionally, the spin wave stiffness constant calculated using the near neighbor Heisenberg model demonstrates a dampening in both Fe and Ni with the inclusion of cluster vacancies.

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Section: Introductionmentioning

confidence: 99%

Influence of vacancy type defects on the exchange integrals in ferromagnetic metals: a Monte-Carlo-based approach

Billgates,

Joseyphus

2024

Phys. Scr.

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Strain engineering of magnetocaloric effect in W/Gd/W/MgO structures

Коплак

Kashin

Моргунов

2022

Journal of Magnetism and Magnetic Materials

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Controlling the angle between magnetic moments of Co layers in Co|RuCo|Co

Nunn

Besler

Omelchenko

et al. 2023

Journal of Applied Physics

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Spintronic devices would greatly benefit from a noncollinear alignment between magnetizations of adjacent ferromagnetic layers for maximum performance and reliability. We demonstrate that such an alignment can be created and controlled by coupling two ferromagnetic layers across a magnetic spacer layer consisting of a nonmagnetic material, Ru, alloyed with a ferromagnetic element, Co. Changing the composition and thickness of the spacer layer enables the control of the relative angle between the magnetizations of the ferromagnetic layers between [Formula: see text] and [Formula: see text]. The onset of noncollinear alignment between the ferromagnetic layers coincides with the advent of magnetic order in the spacer layer. This study maps the concentration and thickness ranges of RuCo spacer layers that give rise to noncollinearity between ferromagnetic Co layers. The experimental results are successfully reproduced by simulating our structures with an atomistic model. This model assumes that Co atoms in the RuCo spacer layer have magnetic moments and that neighboring Co atoms are ferromagnetically coupled, while Co atoms separated by one or more Ru atoms are antiferromagnetically coupled.

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Nanoscale control of temperature operation ranges for magnetocaloric applications

Cited by 5 publications

References 52 publications

Influence of vacancy type defects on the exchange integrals in ferromagnetic metals: a Monte-Carlo-based approach

Influence of vacancy type defects on the exchange integrals in ferromagnetic metals: a Monte-Carlo-based approach

Strain engineering of magnetocaloric effect in W/Gd/W/MgO structures

Controlling the angle between magnetic moments of Co layers in Co|RuCo|Co

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