Wang Zhenyu, Hao Zhanyang, Yu Yayun, Wang Yuan, Kumar Shiv, Xie Xiangnan, Tong Mingyu, Deng Ke, Hao Yu-Jie, Ma Xiao-Ming, Zhang Ke, Liu Cai, Ma Mingxiang, Mei Jiawei, Wang Guang, Schwier Eike F, Shimada Kenya, Xu Fufang, Liu Chang, Huang Wen, Wang Jianfeng, Jiang Tian, Chen Chaoyu
National Innovation Institute of Defense Technology, Academy of Military Sciences PLA China, Beijing, 100010, China.
National University of Defense Technology, Changsha, 410073, China.
Adv Mater. 2021 Apr;33(17):e2007503. doi: 10.1002/adma.202007503. Epub 2021 Mar 19.
Emergent phenomena such as unconventional superconductivity, Mott-like insulators, and the peculiar quantum Hall effect in graphene-based heterostructures are proposed to stem from the superlattice-induced renormalization of (moiré) Dirac fermions at the graphene Brillouin zone corners. Understanding the corresponding band structure commonly demands photoemission spectroscopy with both sub-meV resolution and large-momentum coverage, beyond the capability of the current state-of-the-art. Here the realization of moiré Dirac cones around the Brillouin zone center in monolayer In Se /bilayer graphene heterostructure is reported. The renormalization is evidenced by reduced Fermi velocity (≈23%) of the moiré Dirac cones and the reshaped Dirac point at the Γ point where they intersect. While there have been many theoretical predictions and much indirect experimental evidence, the findings here are the first direct observation of Fermi velocity reduction of the moiré Dirac cones. These features suggest strong In Se /graphene interlayer coupling, which is comparable with that in twisted bilayer graphene. The strategy expands the choice of materials in the heterostructure design and stimulates subsequent broad investigations of emergent physics at the sub-meV energy scale.
诸如非常规超导、莫特类绝缘体以及基于石墨烯的异质结构中奇特的量子霍尔效应等涌现现象,被认为源于石墨烯布里渊区角点处(莫尔)狄拉克费米子的超晶格诱导重整化。理解相应的能带结构通常需要具有亚毫电子伏特分辨率和大动量覆盖范围的光电子能谱,这超出了当前最先进技术的能力。本文报道了在单层In Se /双层石墨烯异质结构中布里渊区中心附近莫尔狄拉克锥的实现。莫尔狄拉克锥的费米速度降低(约23%)以及它们相交处Γ点处狄拉克点的重塑证明了这种重整化。虽然已经有许多理论预测和大量间接实验证据,但这里的发现是对莫尔狄拉克锥费米速度降低的首次直接观测。这些特征表明In Se /石墨烯层间耦合很强,与扭曲双层石墨烯中的耦合相当。该策略扩展了异质结构设计中材料的选择,并激发了随后在亚毫电子伏特能量尺度上对涌现物理的广泛研究。