Mirroring Skyrmions in Synthetic Antiferromagnets via Modular Design

Deng, Panluo; Zhuo, Fengjun; Li, Hang; Cheng, Zhenxiang

doi:10.3390/nano13050859

Cited by 4 publications

(1 citation statement)

References 54 publications

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“…Skyrmion and its correspondents (such as bimerons [17,[58][59][60][61]) have become an essential subject since they have immense potential to be used as information carriers in future advanced memories, logic gates, and computing devices. In particular, they are predicted to display a vanishing gyrotropic deflection [62,63] in real antiferromagnetic materials [63] as well as in synthetic ones [64][65][66][67][68]. Thus, knowing all possible nuances associated with these topological spin textures in antiferromagnetic systems would be crucial.…”

Section: Discussionmentioning

confidence: 99%

Releasing antiferromagnetic skyrmions from local magnetic-anisotropy defects

Silva,

Pereira

2023

J. Phys.: Condens. Matter

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Lattice defects may work as a kind of apparatus for catching topological excitations, preventing their escape. So, the problem of removing skyrmions from eventual local defects in magnetic materials must be closely related to new technologies such as skyrmionic. Here, we examine the conditions for drawing a skyrmion from a magnetic impurity in a two-dimensional antiferromagnetic system by applying spin-polarized currents (SPC). Two types of impurities are investigated (local easy-axis and easy-plane anisotropy defects). Also, two methods to release the skyrmion with SPC are explored. In principle, our results could be qualitatively relevant to any other type of lattice defect.

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Section: Discussionmentioning

confidence: 99%

Releasing antiferromagnetic skyrmions from local magnetic-anisotropy defects

Silva,

Pereira

2023

J. Phys.: Condens. Matter

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Emergent chiral spin textures in centrosymmetric iron garnet with spin alignment constraints

Mudhafer,

Najdi,

Alshamkhani

2024

Journal of Magnetism and Magnetic Materials

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A spin-torque nano-oscillator based on interlayer-coupled meron–skyrmion pairs with a fixed orbit

Yi,

Han,

Jiang

et al. 2024

Journal of Applied Physics

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In recent years, magnetic skyrmion-based spin-torque nano-oscillators (STNOs) have attracted considerable interest for their prospect in future-generation communication and spintronic technologies. However, some critical issues, which hamper their practical applications, e.g., the long start-up time and variable skyrmion gyration orbit, remain to be resolved. Here, we numerically demonstrate the realization of a fixed-orbit STNO, which is based on an interlayer-coupled meron–skyrmion (MS) pair instead of a magnetic skyrmion. In this STNO, the MS pair possesses a structurally defined, fixed orbit within a broad range of driving currents, even in the presence of random defects. The output frequency range of the STNO based on an MS pair far exceeds that of the STNO typically featuring a single skyrmion. Moreover, the output frequency of this STNO can be further elevated if more MS pairs are incorporated. Our results reveal the nontrivial dynamics of the interlayer-coupled MS pair, opening perspectives for the design and optimization of fundamental spintronic devices.

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Mirroring Skyrmions in Synthetic Antiferromagnets via Modular Design

Cited by 4 publications

References 54 publications

Releasing antiferromagnetic skyrmions from local magnetic-anisotropy defects

Releasing antiferromagnetic skyrmions from local magnetic-anisotropy defects

Emergent chiral spin textures in centrosymmetric iron garnet with spin alignment constraints

A spin-torque nano-oscillator based on interlayer-coupled meron–skyrmion pairs with a fixed orbit

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