Litcius/Paper detail

Surface acoustic wave-assisted spin–orbit torque switching of the Pt/Co/Ta heterostructure

Yang Cao, Xiaofei Bian, Ze Yan, Li Xi, Na Lei, Liang Qiao, Mingsu Si, Jiangwei Cao, Dezheng Yang, Ding‐Jiang Xue

2021Applied Physics Letters24 citationsDOI

Abstract

Current-induced spin–orbit torque (SOT) allows for highly efficient control of magnetization for the magnetic memory and the logic application, but its high critical current density Jc limits its applications. Here, we report that the surface acoustic wave (SAW) presents a promising approach for reducing Jc in Pt/Co/Ta heterostructures with perpendicular anisotropy. By the second harmonic Hall measurements, we find that the damping-like SOT effective field is almost the same with or without SAW, implying that the reduction of Jc does not originate from the enhancement of the SOT. However, the current-induced domain wall velocity v under SAW is greatly enhanced. By fitting with the creep law under SAW, we find that lnv is linear with SAW power (P), which reveals that the effective pinning barrier is reduced linearly with increasing P. This feature can be well described by the time average of the periodically accumulated nucleation probability under SAW. The results shed light on the application of SAW-assisted SOT devices for low consumption storage.

Topics & Concepts

Condensed matter physicsSurface acoustic waveHeterojunctionDomain wall (magnetism)Materials scienceNucleationCurrent densityAcoustic waveMagnetizationHysteresisMagnetic fieldPhysicsAcousticsThermodynamicsQuantum mechanicsMagnetic properties of thin filmsAdvanced Memory and Neural ComputingFerroelectric and Negative Capacitance Devices