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Negative capacitance in multidomain ferroelectric superlattices

Author

Listed:
  • Pavlo Zubko

    (University College London)

  • Jacek C. Wojdeł

    (Institut de Ciència de Materials de Barcelona (ICMAB-CSIC), Campus UAB)

  • Marios Hadjimichael

    (University College London)

  • Stéphanie Fernandez-Pena

    (University of Geneva)

  • Anaïs Sené

    (Laboratory of Condensed Matter Physics, University of Picardie)

  • Igor Luk’yanchuk

    (Laboratory of Condensed Matter Physics, University of Picardie
    L. D. Landau Institute for Theoretical Physics)

  • Jean-Marc Triscone

    (University of Geneva)

  • Jorge Íñiguez

    (Institut de Ciència de Materials de Barcelona (ICMAB-CSIC), Campus UAB
    Luxembourg Institute of Science and Technology (LIST))

Abstract

Negative capacitance is observed in a model system of multidomain ferroelectric–dielectric superlattices; the multidomain state can increase the temperature range over which negative capacitance can be observed.

Suggested Citation

  • Pavlo Zubko & Jacek C. Wojdeł & Marios Hadjimichael & Stéphanie Fernandez-Pena & Anaïs Sené & Igor Luk’yanchuk & Jean-Marc Triscone & Jorge Íñiguez, 2016. "Negative capacitance in multidomain ferroelectric superlattices," Nature, Nature, vol. 534(7608), pages 524-528, June.
    • Handle: RePEc:nat:nature:v:534:y:2016:i:7608:d:10.1038_nature17659
    DOI: 10.1038/nature17659
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    Cited by:

    1. Ipek Efe & Alexander Vogel & William S. Huxter & Elzbieta Gradauskaite & Iaroslav Gaponenko & Patrycja Paruch & Christian L. Degen & Marta D. Rossell & Manfred Fiebig & Morgan Trassin, 2025. "Nanoscale electrostatic control in ferroelectric thin films through lattice chemistry," Nature Communications, Nature, vol. 16(1), pages 1-10, December.
    2. Michael Hoffmann & Zheng Wang & Nujhat Tasneem & Ahmad Zubair & Prasanna Venkatesan Ravindran & Mengkun Tian & Anthony Arthur Gaskell & Dina Triyoso & Steven Consiglio & Kandabara Tapily & Robert Clar, 2022. "Antiferroelectric negative capacitance from a structural phase transition in zirconia," Nature Communications, Nature, vol. 13(1), pages 1-8, December.
    3. Wen-Cheng Fan & Zhao Guan & Lu-Qi Wei & Hao-Wen Xu & Wen-Yi Tong & Ming Tian & Neng Wan & Cheng-Shi Yao & Jun-Ding Zheng & Bin-Bin Chen & Ping-Hua Xiang & Ni Zhong & Chun-Gang Duan, 2025. "Edge polarization topology integrated with sliding ferroelectricity in Moiré system," Nature Communications, Nature, vol. 16(1), pages 1-8, December.
    4. Daniel Bennett & Gaurav Chaudhary & Robert-Jan Slager & Eric Bousquet & Philippe Ghosez, 2023. "Polar meron-antimeron networks in strained and twisted bilayers," Nature Communications, Nature, vol. 14(1), pages 1-7, December.
    5. Er Pan & Zefen Li & Fan Yang & Kangdi Niu & Renji Bian & Qing Liu & Jiangang Chen & Biao Dong & Ruixue Wang & Tingchuan Zhou & Aijun Zhou & Xiao Luo & Junhao Chu & Junhao Lin & Wenwu Li & Fucai Liu, 2025. "Observation and manipulation of two-dimensional topological polar texture confined in moiré interface," Nature Communications, Nature, vol. 16(1), pages 1-9, December.
    6. Wei Luo & Alireza Akbarzadeh & Yousra Nahas & Sergei Prokhorenko & Laurent Bellaiche, 2023. "Quantum criticality at cryogenic melting of polar bubble lattices," Nature Communications, Nature, vol. 14(1), pages 1-8, December.

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