Generation and Hall effect of skyrmions enabled via using nonmagnetic point contacts
Zidong Wang, Xichao Zhang, Jing Xia, Le Zhao, Keyu Wu, Guoqiang Yu,, Kang L. Wang, Xiaoxi Liu, Suzanne G. E. te Velthuis, and Axel Hoffmann, Yan, Zhou, and Wanjun Jiang

TL;DR
This paper demonstrates the dynamic generation and manipulation of skyrmions using nonmagnetic point contacts in trilayer films, enabling controlled skyrmion Hall effect observation for spintronic applications.
Contribution
It introduces a novel method of generating and controlling skyrmions with nonmagnetic point contacts, combining experimental, numerical, and theoretical analyses.
Findings
Skyrmions can be generated using high voltage pulses on nonmagnetic contacts.
The skyrmion Hall effect is experimentally observed in the same devices.
Micromagnetic simulations reveal the role of skyrmion-antiskyrmion pairs in creation.
Abstract
To enable functional skyrmion based spintronic devices, the controllable generation and manipulation of skyrmions is essential. While the generation of skyrmions by using a magnetic geometrical constriction has already been demonstrated, this approach is difficult to combine with a subsequent controlled manipulation of skyrmions. The high efficiency of skyrmion generation from magnetic constrictions limits the useful current density, resulting in stochastic skyrmion motion, which may obscure topological phenomena such as the skyrmion Hall effect. In order to address this issue, we designed a nonmagnetic conducting Ti/Au point contact in devices made of Ta/CoFeB/TaOx trilayer films. By applying high voltage pulses, we experimentally demonstrated that skyrmions can be dynamically generated. Moreover, the accompanied spin topology dependent skyrmion dynamics, the skyrmion Hall effect is…
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