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Evolution of electronic structure in pristine and hole-doped kagome metal RbV$_3$Sb$_5$

We report on in situ low-temperature (4 K) scanning tunneling microscope measurements of atomic and electronic structures of the cleaved surfaces of an alkali-based kagome metal RbV$_3$Sb$_5$ single crystals. We find that the dominant pristine surface exhibits Rb-1x1 structure, in which a unique unidirectional $\sqrt{3}a_0$ charge order is discovered. As the sample temperature slightly rises, Rb-$\sqrt{3}$x1 and Rb-$\sqrt{3}$x$\sqrt{3}$ reconstructions form due to desorption of surface Rb atoms. Our conductance mapping results demonstrate that Rb desorption not only gives rise to hole doping, but also renormalizes the electronic band structures. Surprisingly, we find a ubiquitous gap opening near the Fermi level in tunneling spectra on all the surfaces despite their large differences of hole-carrier concentration, indicating an orbital-selective band reconstruction in RbV$_3$Sb$_5$.

preprint2021arXivOpen access
Jiawei YuKebin XiaoYonghao YuanQiangwei YinZhiqiang HuChunsheng GongYunkai GuoZhijun TuHechang LeiQi-Kun XueWei Li
cond-mat.supr-con
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Jiawei YuKebin XiaoYonghao YuanQiangwei YinZhiqiang HuChunsheng GongYunkai GuoZhijun TuHechang LeiQi-Kun XueWei Li

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