Cai Zhihao, Cao Haijun, Sheng Haohao, Hu Xuegao, Sun Zhenyu, Zhao Qiaoxiao, Gao Jisong, Ideta Shin-Ichiro, Shimada Kenya, Huang Jiawei, Cheng Peng, Chen Lan, Yao Yugui, Meng Sheng, Wu Kehui, Wang Zhijun, Feng Baojie
Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China.
School of Physical Sciences, University of Chinese Academy of Sciences, Beijing 100049, China.
Nano Lett. 2024 Aug 21;24(33):10237-10243. doi: 10.1021/acs.nanolett.4c02580. Epub 2024 Aug 2.
The Weyl semimetals represent a distinct category of topological materials wherein the low-energy excitations appear as the long-sought Weyl Fermions. Exotic transport and optical properties are expected because of the chiral anomaly and linear energy-momentum dispersion. While three-dimensional Weyl semimetals have been successfully realized, the quest for their two-dimensional (2D) counterparts is ongoing. Here, we report the realization of 2D Weyl Fermions in monolayer PtTe, which has strong spin-orbit coupling and lacks inversion symmetry, by combined angle-resolved photoemission spectroscopy, scanning tunneling microscopy, second harmonic generation, X-ray photoelectron spectroscopy measurements, and first-principles calculations. The giant Rashba splitting and band inversion lead to the emergence of three pairs of critical Weyl cones. Moreover, monolayer PtTe exhibits excellent chemical stability in ambient conditions, which is critical for future device applications. The discovery of 2D Weyl Fermions in monolayer PtTe opens up new possibilities for designing and fabricating novel spintronic devices.
外尔半金属代表了一类独特的拓扑材料,其中低能激发表现为长期以来寻找的外尔费米子。由于手征反常和线性能量-动量色散,预计会出现奇异的输运和光学性质。虽然三维外尔半金属已成功实现,但对其二维对应物的探索仍在进行中。在此,我们通过角分辨光电子能谱、扫描隧道显微镜、二次谐波产生、X射线光电子能谱测量和第一性原理计算相结合的方法,报告了在具有强自旋轨道耦合且缺乏反演对称性的单层PtTe中实现二维外尔费米子。巨大的Rashba分裂和能带反转导致出现三对临界外尔锥。此外,单层PtTe在环境条件下表现出优异的化学稳定性,这对未来的器件应用至关重要。在单层PtTe中发现二维外尔费米子为设计和制造新型自旋电子器件开辟了新的可能性。
