Litcius/Paper detail

Realization of a two-dimensional Weyl semimetal and topological Fermi strings

Qiangsheng Lu, P. Venugopal Reddy, Hoyeon Jeon, Alessandro R. Mazza, Matthew Brahlek, Weikang Wu, Shengyuan A. Yang, Jacob Cook, Clayton Conner, Xiaoqian Zhang, A. Chakraborty, Yueh‐Ting Yao, Hung‐Ju Tien, Chun-Han Tseng, Po-Yuan Yang, Shang‐Wei Lien, Hsin Lin, T.‐C. Chiang, Giovanni Vignale, An‐Ping Li, Tay‐Rong Chang, R. G. Moore, Guang Bian

2024Nature Communications30 citationsDOIOpen Access PDF

Abstract

A two-dimensional (2D) Weyl semimetal, akin to a spinful variant of graphene, represents a topological matter characterized by Weyl fermion-like quasiparticles in low dimensions. The spinful linear band structure in two dimensions gives rise to distinctive topological properties, accompanied by the emergence of Fermi string edge states. We report the experimental realization of a 2D Weyl semimetal, bismuthene monolayer grown on SnS(Se) substrates. Using spin and angle-resolved photoemission and scanning tunneling spectroscopies, we directly observe spin-polarized Weyl cones, Weyl nodes, and Fermi strings, providing consistent evidence of their inherent topological characteristics. Our work opens the door for the experimental study of Weyl fermions in low-dimensional materials.

Topics & Concepts

Realization (probability)Weyl semimetalFermi Gamma-ray Space TelescopeSemimetalPhysicsTopology (electrical circuits)Theoretical physicsCondensed matter physicsMathematicsCombinatoricsBand gapStatisticsTopological Materials and PhenomenaGraphene research and applications2D Materials and Applications