Skyrmion Ratchet in Funnel Geometries

Abstract: Using a particle-based model, we simulate the behavior of a skyrmion under the influence of asymmetric funnel geometries and ac driving at zero temperature. We specifically investigate possibilities for controlling the skyrmion motion by harnessing a ratchet effect. Our results show that as the amplitude of a unidirectional ac drive is increased, the skyrmion can be set into motion along either the easy or hard direction of the funnel depending on the ac driving direction. When the ac drive is parallel to the … Show more

“…Bending-driven skyrmion motion may be difficult to be applied in the design of skyrmion racetrack memory due to the significant Hall angle. However, previous researches reveal that skyrmion ratchet effects, which can be generated by alternating currents (AC) in a racetrack with a broken symmetry [50][51][52] or by asymmetric 2D periodic pinning [53], may lead to net unidirectional transport based on the SkHE. Similarly, alternating bending could also be used to drive the ratcheting motion as shown in figure 2(d), which provides new ideas for bending-driven skyrmion ratchet device.…”

Dynamics and stability of skyrmions in a bent nano-beam

“…Bending-driven skyrmion motion may be difficult to be applied in the design of skyrmion racetrack memory due to the significant Hall angle. However, previous researches reveal that skyrmion ratchet effects, which can be generated by alternating currents (AC) in a racetrack with a broken symmetry [50][51][52] or by asymmetric 2D periodic pinning [53], may lead to net unidirectional transport based on the SkHE. Similarly, alternating bending could also be used to drive the ratcheting motion as shown in figure 2(d), which provides new ideas for bending-driven skyrmion ratchet device.…”

Dynamics and stability of skyrmions in a bent nano-beam