Junfeng Hu scite author profile

Recent years have witnessed a rapidly growing interest in exploring the use of spin waves for information transmission and computation toward establishing a spin-wave-based technology that is not only significantly more energy efficient than the CMOS technology, but may also cause a major departure from the von-Neumann architecture by enabling memory-in-logic and logic-in-memory architectures. A major bottleneck of advancing this technology is the excitation of spin waves with short wavelengths, which is a must because the wavelength dictates device scalability. Here, we report the discovery of an approach for the excitation of nm-wavelength spin waves. The demonstration uses ferromagnetic nanowires grown on a 20-nm-thick Y3Fe5O12 film strip. The propagation of spin waves with a wavelength down to 50 nm over a distance of 60,000 nm is measured. The measurements yield a spin-wave group velocity as high as 2600 m s−1, which is faster than both domain wall and skyrmion motions.

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Record thermopower found in an IrMn-based spintronic stack

Ziman

et al. 2020

Nat Commun

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The Seebeck effect converts thermal gradients into electricity. As an approach to power technologies in the current Internet-of-Things era, on-chip energy harvesting is highly attractive, and to be effective, demands thin film materials with large Seebeck coefficients. In spintronics, the antiferromagnetic metal IrMn has been used as the pinning layer in magnetic tunnel junctions that form building blocks for magnetic random access memories and magnetic sensors. Spin pumping experiments revealed that IrMn Néel temperature is thickness-dependent and approaches room temperature when the layer is thin. Here, we report that the Seebeck coefficient is maximum at the Néel temperature of IrMn of 0.6 to 4.0 nm in thickness in IrMn-based half magnetic tunnel junctions. We obtain a record Seebeck coefficient 390 (±10) μV K −1 at room temperature. Our results demonstrate that IrMnbased magnetic devices could harvest the heat dissipation for magnetic sensors, thus contributing to the Power-of-Things paradigm.

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Chiral Emission of Exchange Spin Waves by Magnetic Skyrmions

Chen

2021

ACS Nano

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Spin waves or their quanta magnons raise the prospect to act as information carriers in the absence of Joule heating. The challenge to excite spin waves with nanoscale wavelengths free of nanolithography becomes a critical bottleneck for the application of nanomagnonics. Magnetic skyrmions are chiral magnetic textures at the nanoscale. In this work, short-wavelength exchange spin waves are demonstrated to be chirally emitted in a low damping magnetic insulating thin film by magnetic skyrmions. The spin-wave chirality originates from the chiral spin pumping effect and is determined by the cross product of the magnetization orientation and the film normal direction. The Halbach effect explains the enhancement or attenuation of the spin-wave amplitude with a reversed sign of the Dyzaloshinskii–Moriya interaction. Controllable spin-wave propagation is demonstrated by rotating a moderate applied field. Our findings are key for building compact low-power nanomagnonic devices based on intrinsic nanoscale magnetic textures.

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Anomalous Hall and Nernst Effects in Co2TiSn and Co2Ti0.6
Hu
¹
,
Ernst
²
,
Tu
³

et al. 2018
Phys. Rev. Applied

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Junfeng Hu

Long-distance propagation of short-wavelength spin waves

Record thermopower found in an IrMn-based spintronic stack

Chiral Emission of Exchange Spin Waves by Magnetic Skyrmions

Anomalous Hall and Nernst Effects in Co2TiSn and Co2Ti0.6
Hu
¹
,
Ernst
²
,
Tu
³

et al. 2018
Phys. Rev. Applied

Contact Info

Product

Resources

About

Junfeng Hu

Long-distance propagation of short-wavelength spin waves

Record thermopower found in an IrMn-based spintronic stack

Chiral Emission of Exchange Spin Waves by Magnetic Skyrmions

Anomalous Hall and Nernst Effects in Co2TiSn and Co2Ti0.6Hu1, Ernst2, Tu3 et al. 2018Phys. Rev. Applied

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Product

Resources

About

Anomalous Hall and Nernst Effects in Co2TiSn and Co2Ti0.6
Hu
¹
,
Ernst
²
,
Tu
³

et al. 2018
Phys. Rev. Applied