• Corpus ID: 238583429

Topologically Protected Ferroelectric Domain Wall Memory with Large Readout Current

@inproceedings{Yang2021TopologicallyPF,
  title={Topologically Protected Ferroelectric Domain Wall Memory with Large Readout Current},
  author={Wenda Yang and Guo Tian and Hua Fan and Yue Zhao and Hongying Chen and Luyong Zhang and Yadong Wang and Zhen Fan and Zhipeng Hou and Deyang Chen and Jinwei Gao and Min Zeng and Xubing Lu and Minghui Qin and Xingsen Gao and Jun-ming Liu},
  year={2021}
}
Wenda Yang, Guo Tian, Hongying Chen, Luyong Zhang, Yadong Wang, Zhen Fan, Zhipeng Hou, Deyang Chen, Jinwei Gao, Min Zeng, Xubing Lu, Minghui Qin, Xingsen Gao,Jun-Ming Liu Guangdong Provincial Key Laboratory of Quantum Engineering and Quantum Materials, Institute for Advanced Materials, South China Academy of Advanced Optoelectronics South China Normal University Guangzhou 510006, China Email: X. S. Gao, xingsengao@scnu.edu.cn; Z. Fan, fanzhen@m.scnu.edu.cn; G. Tian, guotian@m.scnu.edu.cn 

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References

SHOWING 1-10 OF 38 REFERENCES
Polarization charge as a reconfigurable quasi-dopant in ferroelectric thin films.
TLDR
A technique allowing the creation and nanoscale manipulation of charged domain walls and their action as a real-time doping activator in ferroelectric thin films is demonstrated, taking the idea of hardware reconfigurable electronics one step forward.
"J."
however (for it was the literal soul of the life of the Redeemer, John xv. io), is the peculiar token of fellowship with the Redeemer. That love to God (what is meant here is not God’s love to men)
APPL
Statistical packages have been used for decades to analyze large datasets or to perform mathematically intractable statistical methods. These packages are not capable of working with random variables
L
  • -Q. Chen, P. Yu, J. X. Zhang, C. -W. Nan, Nat. Nanotech.
  • 2018
Nat
  • Nanotech.
  • 2015
L
  • -Q. Chen, X. S. Gao, J. -M. Liu, Nat. Common. 2021, 12,
L
  • f. Wang, M. Kim, T. W. Noh, npj Quantum Mater.
  • 2021
Quasi-one-dimensional metallic conduction channels in exotic ferroelectric topological defects
TLDR
It is unveiled via the phase-field simulation that the superfine metallic conduction channels along the center cores arise from the screening charge carriers confined at the core region, whereas the high conductance of vortex cores results from a field-induced twisted state.
Nat
  • Rev. Phys.
  • 2020
U
  • Bangert. L.-Q. Chen, A. Gruverman, J. M. Gregg, Adv. Funct. Mater.
  • 2020
...
1
2
3
4
...