posted on 2020-11-30, 15:35authored byYang-Yang Lyu, Xiaoyu Ma, Jing Xu, Yong-Lei Wang, Zhi-Li Xiao, Sining Dong, Boldizsar Janko, Huabing Wang, Ralu Divan, John E. Pearson, Peiheng Wu, Wai-Kwong Kwok
The
ability to control the potential landscape in a medium of interacting
particles could lead to intriguing collective behavior and innovative
functionalities. Here, we utilize spatially reconfigurable magnetic
potentials of a pinwheel artificial-spin-ice (ASI) structure to tailor
the motion of superconducting vortices. The reconstituted chain structures
of the magnetic charges in the pinwheel ASI and the strong interaction
between magnetic charges and superconducting vortices allow significant
modification of the transport properties of the underlying superconducting
thin film, resulting in a reprogrammable resistance state that enables
a reversible and switchable vortex Hall effect. Our results highlight
an effective and simple method of using ASI as an in situ reconfigurable
nanoscale energy landscape to design reprogrammable superconducting
electronics, which could also be applied to the in situ control of
properties and functionalities in other magnetic particle systems,
such as magnetic skyrmions.