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    Home»Physics»Enhanced Charge Density Waves by Moiré Engineering in Twisted Heterostructures
    Physics

    Enhanced Charge Density Waves by Moiré Engineering in Twisted Heterostructures

    By Chinese Academy of SciencesDecember 20, 2021No Comments3 Mins Read
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    Various Moiré Patterns With Different Twist Angles
    Figure 1. Scanning tunneling microscopy topographic images of various moiré patterns with different twist angles. Credit: Image by NJU

    The findings demonstrate that many-body effects, such as electronic quantum correlations, can be tuned in metallic systems—opening new avenues for moiré engineering beyond graphene and semiconducting TMDs.

    When stacking two layers of van der Waals (vdW) materials, a moiré pattern is produced by the modulation of the long wavelength periodic potential. The moiré pattern is a promising means in engineering both the atomic geometry and electronic structure. A variety of emergent phenomena have been discovered in twisted vdW bilayers of graphene or semiconducting transition-metal dichalcogenide (2H-TMD), however, little is known about the twisted bilayer of metallic 1T-TMD (transition metal dichalcogenide) materials.

    In a study published in Nature Materials, researchers led by Prof. LI Shaochun at Nanjing University and Prof. MENG Sheng at the Institute of Physics (IoP) of the Chinese Academy of Sciences have discovered for the first time that the many-body effects, particularly the electronic quantum correlation, can be tuned in metallic vdW monolayers through moiré engineering.

    Moiré Enhanced CDWs
    Figure 2. Moiré enhanced CDWs near 0°. Credit: Image by NJU and IoP

    The researchers synthesized the epitaxial heterostructure of 1T-TiTe2/1T-TiSe2 with various twist angles using molecular beam epitaxy and investigated the moiré pattern induced/enhanced charge density wave (CDW) states with scanning tunneling microscopy.

    They found that in 1T-TiTe2/1T-TiSe2 heterostructures, when the twist angle is near ~0.5°, the profound 2×2 CDW domains are formed in 1T-TiTe2. The CDW domains are trapped in the moiré pattern and separated by the 1×1 normal-state regions.

    Symmetric Strain Map
    Figure 3. Symmetric strain map. Credit: Image by NJU

    This CDW state is significantly enhanced to persist even at room temperature. However, in larger twist angles, such moiré-trapped CDW patterns have not been observed. Using first-principles calculations within the framework density functional theory, they demonstrated that the formation of moiré-trapped CDW state can be ascribed to the local strain variations due to atomic reconstructions modulated by moiré patterns.

    Relative Height and Strain Field Heterostructures
    Figure 4. Relative height and strain field of the heterostructures. Credit: Image by IoP

    This study paves a new way to constructing metallic twisted vdW bilayers and tuning the many-body effects via moiré engineering and it was supported by the National Natural Science Foundation of China and the Chinese Academy of Sciences.

    Reference: “Moiré enhanced charge density wave state in twisted 1T-TiTe2/1T-TiSe2 heterostructures” by Wei-Min Zhao, Li Zhu, Zhengwei Nie, Qi-Yuan Li, Qi-Wei Wang, Li-Guo Dou, Ju-Gang Hu, Lede Xian, Sheng Meng and Shao-Chun Li, 16 December 2021, Nature Materials.
    DOI: 10.1038/s41563-021-01167-0

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