Electric Configuration of the Topological Textures in a Ferroelectric Nanoplate by Partial Domain Switching

Kwangeun Kim; Seuri Jeong; Kanghyun chu; Jin Hong Lee; Gi-Yeop Kim; Fei Xue; Tae-Yeong Koo; Long-Qing Chen; Si-Young Choi; Ramamoorthy Ramesh; Chan-Ho Yang

Electric Configuration of the Topological Textures in a Ferroelectric Nanoplate by Partial Domain Switching

ORAL

Abstract

Vortices in ferroic materials have not only provided a new perspective for describing collective orders in matter but also given potential applications for high density non-volatile information storage. However, creation of stable isolate ferroelectric vortex states and electric configuration of the topological invariant in dielectrics are experimentally still veiled. Here, we show an epitaxial ferroelectric square nanoplate of bismuth ferrite subject to a large strain gradient associated with misfit strain relaxation enables five discrete levels for the ferroelectric topological invariant of the entire system as a consequence of the peculiar radial strain relaxation and the domain wall chirality. The total winding number of the nanoplate can be configured from -1 to 3 by selective non-local electric switching of the radial-quadrant domains. By using position-sensitive angle-resolved piezoresponse force microscopy, we directly identify the existence of vortices and anti-vortices, observe pair creation and annihilation, and manipulate the total net number of vortices. Our findings offer a useful concept to stabilize and control the ferroelectric vortices for multi-level topological defect memory.

March 5, 2018, 10:48 AM – March 5, 2018, 11:00 AM

Presenters

Kwangeun Kim
- Department of Physics, Korea Adv Inst of Sci & Tech

Authors

Kwangeun Kim
- Department of Physics, Korea Adv Inst of Sci & Tech
Seuri Jeong
- Department of Physics, Korea Adv Inst of Sci & Tech
Kanghyun chu
- Department of Physics, Korea Adv Inst of Sci & Tech
Jin Hong Lee
- Physics, KAIST
- Department of Physics, Korea Adv Inst of Sci & Tech
Gi-Yeop Kim
- Advanced Characterization & Analysis Group, Korea Institute of Materials Science
Fei Xue
- Department of Materials Science & Engineering, The Pennsylvania State University
Tae-Yeong Koo
- Pohang Accelertor Lab
- Pohang Accelerator Laboratory, POSTECH
Long-Qing Chen
- MSE, Penn State University
- Materials Science and Engineering, The Pennsylvania State University
- Department of Materials Science & Engineering, The Pennsylvania State University
Si-Young Choi
- Advanced Characterization & Analysis Group, Korea Institute of Materials Science
Ramamoorthy Ramesh
- Department of Physics, University of California
- Physics, Univ of California - Berkeley
- MSE, UC Berkeley
- Department of Materials Science & Engineering, University of California, Berkeley
- Department of Materials Science and Engineering, University of California
Chan-Ho Yang
- Physics, KAIST
- Department of Physics, Korea Adv Inst of Sci & Tech