摘要
Topological polar vortices, which are electric analogs of magnetic objects, present great potential in applications of future nanoelectronics because of their nanometer size, anomalous dielectric response, and chirality. To enable the functionalities, it is prerequisite to manipulate the polar states and chirality by using external stimuli. Here, we probe the evolutions of polar state and chirality evolutions of topological polar vortices in Pb TiO;/Sr TiO;superlattices under an electric field by using atomically resolved in situ scanning transmission electron microscopy and phase-field simulations. We find that, under electric field, the chiral vortex cores can be moved laterally to form close-pair structures, transform into a/c domain stripes, and finally become a nonchiral c-domain. Such transition is reversible and spontaneous after bias removal. Interestingly, during switching and backswitching events, the vortex rotation can be changed, offering a potential strategy to manipulate vortex chirality. The revealed dynamic behavior of individual polar vortices at the atomic scale provides fundamentals for future device applications.
基金
supported by the National Natural Science Foundation of China(Grant Nos.51991340,51991344,11974023,51672007,21773303,11875229,and 51872251)
the Chinese Academy of Sciences(Grant Nos.XDB33030200,and ZDYZ2015-1)
the National Key R&D Program of China(Grant No.2016YFA0300804)
the Key R&D Program of Guangdong Province(Grant Nos.2018B030327001,2018B010109009,and2019B010931001)
the Bureau of Industry and Information Technology of Shenzhen(Grant No.201901161512)
the Beijing Excellent Talents Training Support(Grant No.2017000026833ZK11)
the“2011 Program”Peking-Tsinghua-IOP Collaborative Innovation Center for Quantum Matter。
