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    Journals >NUCLEAR TECHNIQUES >Volume 48 >Issue 2 >Page 020102 > Article
    • NUCLEAR TECHNIQUES
    • Vol. 48, Issue 2, 020102 (2025)
    Simulation analysis of superlattice half-order peaks caused by oxygen octahedral rotation in perovskite oxides
    Yajun TAO, Yongqi DONG, Zhe SUN, and Zhenlin LUO*
    Author Affiliations
  • National Synchrotron Radiation Laboratory, University of Science and Technology of China, Hefei 230026, China
    • show less
    DOI: 10.11889/j.0253-3219.2025.hjs.48.240120 Cite this Article
    Yajun TAO, Yongqi DONG, Zhe SUN, Zhenlin LUO. Simulation analysis of superlattice half-order peaks caused by oxygen octahedral rotation in perovskite oxides[J]. NUCLEAR TECHNIQUES, 2025, 48(2): 020102 Copy Citation Text show less
    References

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    [2] Kyung W, Kim C H, Kim Y K et al. Electric-field-driven octahedral rotation in perovskite[J]. NPJ Quantum Materials, 6, 5(2021).

    [3] Li Q, Qian H, Zheng T Y et al. Enhanced strain of (Ba, Ca)(Ti,Zr,Sn)O3 ferroelectrics with multiphase polar nanoregions coexistence and BO6 octahedral rotation[J]. Journal of Alloys and Compounds, 922, 166210(2022).

    [4] Liu C H, Si Y Y, Zhang H et al. Low voltage-driven high-performance thermal switching in antiferroelectric PbZrO3 thin films[J]. Science, 382, 1265-1269(2023).

    [5] Zhang J F, Lin T, Wang A et al. Super-tetragonal Sr4Al2O7 as a sacrificial layer for high-integrity freestanding oxide membranes[J]. Science, 383, 388-394(2024).

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    [7] Catalan G. Progress in perovskite nickelate research[J]. Phase Transitions, 81, 729-749(2008).

    [8] Catalano S, Gibert M, Fowlie J et al. Rare-earth nickelates RNiO3: thin films and heterostructures[J]. Reports on Progress in Physics Physical Society (Great Britain), 81, 046501(2018).

    [9] Fowlie J, Mundet B, Toulouse C et al. Crossover between distinct symmetries in solid solutions of rare earth nickelates[J]. APL Materials, 9, 081119(2021).

    [10] Goodenough J B. Theory of the role of covalence in the perovskite-type manganites[La,M(II)] MnO3[J]. Physical Review, 100, 564-573(1955).

    [11] Medarde M L. Structural, magnetic and electronic properties of perovskites (R=rare earth)[J]. Journal of Physics: Condensed Matter, 9, 1679-1707(1997).

    [12] Dong Y Q, Ma Z Y, Luo Z L et al. Interfacial octahedral manipulation imparts hysteresis-free metal to insulator transition in ultrathin nickelate heterostructure[J]. Advanced Materials Interfaces, 6, 1900644(2019).

    [13] Kan D, Aso R, Kurata H et al. Phase control of a perovskite transition-metal oxide through oxygen displacement at the heterointerface[J]. Dalton Transactions, 44, 10594-10607(2015).

    [14] Glazer A M. Simple ways of determining perovskite structures[J]. Acta Crystallographica Section A, 31, 756-762(1975).

    [15] May S J, Kim J W, Rondinelli J M et al. Quantifying octahedral rotations in strained perovskite oxide films[J]. Physical Review B, 82, 014110(2010).

    [16] Glazer A M. The classification of tilted octahedra in perovskites[J]. Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry, 28, 3384-3392(1972).

    [17] Yang K, Dong Z H, Zhou C Y et al. Ultrahard X-ray multifunctional application beamline at the SSRF[J]. Nuclear Science and Techniques, 35, 98(2024).

    [18] Zhenhong MAI[M]. X-ray characterization of thin film structure(2015).

    [19] Fowlie J, Lichtensteiger C, Gibert M et al. Thickness-dependent perovskite octahedral distortions at heterointerfaces[J]. Nano Letters, 19, 4188-4194(2019).

    [20] Rotella H, Lüders U, Janolin P E et al. Octahedral tilting in strained LaVO3 thin films[J]. Physical Review B, 85, 184101(2012).

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    Yajun TAO, Yongqi DONG, Zhe SUN, Zhenlin LUO. Simulation analysis of superlattice half-order peaks caused by oxygen octahedral rotation in perovskite oxides[J]. NUCLEAR TECHNIQUES, 2025, 48(2): 020102
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