Author:
Meng 孟 Yu-Xin 雨欣,Xue 薛 Cheng-Long 成龙,Dou 窦 Li-Guo 立国,Zhao 赵 Wei-Min 伟民,Wang 汪 Qi-Wei 琪玮,Xu 徐 Yong-Jie 永杰,Liu 刘 Xiangqi 祥麒,Xia 夏 Wei 威,Guo 郭 Yanfeng 艳峰,Li 李 Shao-Chun 绍春
Abstract
Owing to the unique electronic structure, kagome materials AV3Sb5 (A = K, Rb, Cs) provide a fertile platform of quantum phenomena such as the strongly correlated state and topological Dirac band. It is well known that RbV3Sb5 exhibits a 2 × 2 unconventional charge density wave (CDW) state at low temperature, and the mechanism is controversial. Here, by using scanning tunneling microscopy/spectroscopy (STM/STS), we successfully manipulated the CDW state in the Sb plane of RbV3Sb5, and realized a new
3
×
3
modulation together with the ubiquitous 2 × 2 period in the CDW state of RbV3Sb5. This work provides a new understanding of the collective quantum ground states in the kagome materials.
Subject
General Physics and Astronomy