Spin transport in antiferromagnetic insulators: progress and challenges

Hou, Dazhi; Qiu, Zhiyong; Saitoh, Eiji

doi:10.1038/s41427-019-0135-9

Cited by 55 publications

(38 citation statements)

References 41 publications

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“…There is a growing number of theoretical concepts already out exploiting this equivalent nature, predicting, for example, the existence of topological magnon states in AFIs or emergent spin-orbit coupling effects in magnon transport. [37,154,[163][164][165][166][167][168][169][170] First experiments on magnon transport via all-electrical means in AFIs were fully compatible with a simple diffusive magnon spin transport, where the injected spin orientation is maintained within the AFI. [71,[77][78][79] However, within the past year, new experiments emerged, which confirm the electronic transport analogy via the observation of the magnon Hanle effect in easy-plane AFIs.…”

Section: Magnon Transportmentioning

confidence: 86%

“…Many theoretical concepts exploit the intrinsic two-level properties of magnons in antiferromagnets and the coupling to, for example, magnetic anisotropy or dipolar fields to construct emergent spin-orbit phenomena in analogy to electronic transport. [154,[163][164][165][166][167][168][169]256] In terms of emergent spin-orbit coupling, the magnon spin Nernst effect, [163,169] i.e., the generation of a transverse magnonic pure spin current by driving a magnon current via a thermal gradient, is one of the prototype examples awaiting experimental verification (see Figure 8a). A major challenge in the experiment will be the detection of the transverse magnon spin accumulation and careful control experiments to disentangle the magnon SHE from other effects driven by the applied thermal gradient.…”

Section: Discussionmentioning

confidence: 99%

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All‐Electrical Magnon Transport Experiments in Magnetically Ordered Insulators

Althammer

2021

Physica Rapid Research Ltrs

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Angular momentum transport is one of the cornerstones of spintronics. Spin angular momentum is not only transported by mobile charge carriers but also by the quantized excitations of the magnetic lattice in magnetically ordered systems. In this regard, magnetically ordered insulators (MOIs) provide a platform for magnon spin transport experiments without additional contributions from spin currents carried by mobile electrons. In combination with charge‐to‐spin current conversion processes in conductors with finite spin–orbit coupling, it is possible to realize all‐electrical magnon transport schemes in thin‐film heterostructures. Herein, an insight into such experiments and recent breakthroughs achieved is provided. Special attention is given to charge‐current‐based manipulation via an adjacent normal metal of magnon transport in MOIs in terms of spin‐transfer torque. Moreover, the influence of two magnon modes with opposite spin in antiferromagnetic insulators on all‐electrical magnon transport experiments is discussed.

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Section: Magnon Transportmentioning

confidence: 86%

Section: Discussionmentioning

confidence: 99%

All‐Electrical Magnon Transport Experiments in Magnetically Ordered Insulators

Althammer

2021

Physica Rapid Research Ltrs

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“…The need for energy efficient information technology has generated intense interest in media for processing data using new carriers including sound [1], light [2], and electron spin [3]. Recently, insulating antiferromagnets (AFMs) were shown to transport spin angular momentum via spin waves [4][5][6][7][8]. While robustness against magnetic perturbations and functionality at THz frequencies [9,10] are common to most AFMs, exceptionally long-distance spin transport [4] and current induced switching of the Néel vector by antidamping torques [11][12][13] have only been reported for insulating phases.…”

mentioning

confidence: 99%

Coherent Transfer of Spin Angular Momentum by Evanescent Spin Waves within Antiferromagnetic NiO

et al. 2020

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Insulating antiferromagnets have recently emerged as efficient and robust conductors of spin current. Element-specific and phase-resolved x-ray ferromagnetic resonance has been used to probe the injection and transmission of ac spin current through thin epitaxial NiO(001) layers. The spin current is found to be mediated by coherent evanescent spin waves of GHz frequency, rather than propagating magnons of THz frequency, paving the way towards coherent control of the phase and amplitude of spin currents within an antiferromagnetic insulator at room temperature.

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“…However, usually, these systems present a high heat resistance, leading to limitations in biosensor applications [4]. On the other hand, thermoelectric effects based on spin dynamics have received increasing attention in recent past, not just to the great technological potential in power-saving electronic devices [5][6][7][8][9], but also for photodetectors [10,11], diode [12], and temperature sensor [13].…”

Section: Introductionmentioning

confidence: 99%

Modulating the Spin Seebeck Effect in Co2FeAl Heusler Alloy for Sensor Applications

Lopes

Souza

Santos

et al. 2020

Sensors

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The thermoelectric conversion technique has been explored in a broad range of heat-flow sensors. In this context, the Spin Seebeck Effect emerges as an attractive candidate for biosensor applications, not only for the sensibility improvement but also for the power-saving electronic devices development. Here, we investigate the Longitudinal Spin Seebeck Effect in films with a Co 2 FeAl/W bilayer structure grown onto GaAs (100) substrate, systems having induced uniaxial magnetic anisotropy combined with cubic magnetic anisotropy. From numerical calculations, we address the magnetic behavior and thermoelectric response of the films. By comparing experiment and theory, we explore the possibility of modulating a thermoelectric effect by magnetic anisotropy. We show that the thermoelectric voltage curves may be modulated by the association of magnetic anisotropy induction and experimental parameters employed in the LSSE experiment.

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Spin transport in antiferromagnetic insulators: progress and challenges

Cited by 55 publications

References 41 publications

All‐Electrical Magnon Transport Experiments in Magnetically Ordered Insulators

All‐Electrical Magnon Transport Experiments in Magnetically Ordered Insulators

Coherent Transfer of Spin Angular Momentum by Evanescent Spin Waves within Antiferromagnetic NiO

Modulating the Spin Seebeck Effect in Co2FeAl Heusler Alloy for Sensor Applications

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