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The role of lattice dynamics in ferroelectric switching

Author

Listed:
  • Qiwu Shi

    (University of California
    Sichuan University)

  • Eric Parsonnet

    (University of California)

  • Xiaoxing Cheng

    (Penn State University, University Park)

  • Natalya Fedorova

    (Materials Research and Technology Department, Luxembourg Institute of Science and Technology)

  • Ren-Ci Peng

    (Xi’an Jiaotong University
    Xidian University)

  • Abel Fernandez

    (University of California)

  • Alexander Qualls

    (University of California)

  • Xiaoxi Huang

    (University of California)

  • Xue Chang

    (Sichuan University)

  • Hongrui Zhang

    (University of California)

  • David Pesquera

    (University of California)

  • Sujit Das

    (University of California
    Material Research Centre, Indian Institute of Science)

  • Dmitri Nikonov

    (Components Research, Intel Corporation)

  • Ian Young

    (Components Research, Intel Corporation)

  • Long-Qing Chen

    (Penn State University, University Park)

  • Lane W. Martin

    (University of California
    Materials Sciences Division, Lawrence Berkeley National Laboratory)

  • Yen-Lin Huang

    (University of California
    National Yang Ming Chiao Tung University)

  • Jorge Íñiguez

    (Materials Research and Technology Department, Luxembourg Institute of Science and Technology
    University of Luxembourg)

  • Ramamoorthy Ramesh

    (University of California
    University of California
    Materials Sciences Division, Lawrence Berkeley National Laboratory)

Abstract

Reducing the switching energy of ferroelectric thin films remains an important goal in the pursuit of ultralow-power ferroelectric memory and logic devices. Here, we elucidate the fundamental role of lattice dynamics in ferroelectric switching by studying both freestanding bismuth ferrite (BiFeO3) membranes and films clamped to a substrate. We observe a distinct evolution of the ferroelectric domain pattern, from striped, 71° ferroelastic domains (spacing of ~100 nm) in clamped BiFeO3 films, to large (10’s of micrometers) 180° domains in freestanding films. By removing the constraints imposed by mechanical clamping from the substrate, we can realize a ~40% reduction of the switching voltage and a consequent ~60% improvement in the switching speed. Our findings highlight the importance of a dynamic clamping process occurring during switching, which impacts strain, ferroelectric, and ferrodistortive order parameters and plays a critical role in setting the energetics and dynamics of ferroelectric switching.

Suggested Citation

  • Qiwu Shi & Eric Parsonnet & Xiaoxing Cheng & Natalya Fedorova & Ren-Ci Peng & Abel Fernandez & Alexander Qualls & Xiaoxi Huang & Xue Chang & Hongrui Zhang & David Pesquera & Sujit Das & Dmitri Nikonov, 2022. "The role of lattice dynamics in ferroelectric switching," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-28622-z
    DOI: 10.1038/s41467-022-28622-z
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    2. Yufan Shen & Kousuke Ooe & Xueyou Yuan & Tomoaki Yamada & Shunsuke Kobayashi & Mitsutaka Haruta & Daisuke Kan & Yuichi Shimakawa, 2024. "Ferroelectric freestanding hafnia membranes with metastable rhombohedral structure down to 1-nm-thick," Nature Communications, Nature, vol. 15(1), pages 1-9, December.

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