铁电性
纳米点
电场
材料科学
扭转(腹足类)
机电学
凝聚态物理
激发
相变
光电子学
物理
电气工程
电介质
工程类
量子力学
医学
外科
作者
Qian Xie,Shuai Yuan,Ye Ji,Shilong Feng,Yulan Liu,Biao Wang
摘要
Polar topologies with exotic textures and functionalities in low-dimensional ferroelectrics are recently drawing extensive attention. Elucidating the mechanical responses caused by the phase transitions under external excitation, especially the torsional response still unclear, is quite significant for the development of ferroelectric actuators. Here, using phase-field simulation, we propose a scheme to produce local torsional force via electric field excitation, namely, the electric torsion effect in a ferroelectric nanodot. The results indicate that the twisting response originating from the structural phase transitions between vortex and helical states is tunable in magnitude and orientation by manipulating the external electric fields. This work provides further insight into the electromechanical response of polar topologies and could be conducive to facilitating the development of torsion-based device applications in ferroelectric nanoelectronics.
科研通智能强力驱动
Strongly Powered by AbleSci AI