Roles of the Narrow Electronic Band near the Fermi Level in 1$T$-TaS$_2$-Related Layered Materials

11 Mar 2021  ·  Chenhaoping Wen, Jingjing Gao, Yuan Xie, Qing Zhang, Pengfei Kong, Jinghui Wang, Yilan Jiang, Xuan Luo, Jun Li, Wenjian Lu, Yu-Ping Sun, Shichao Yan ·

Here we use low-temperature scanning tunneling microscopy and spectroscopy to reveal the roles of the narrow electronic band in two 1$T$-TaS$_2$ related materials (bulk 1$T$-TaS$_2$ and 4$H_{\rm b}$-TaS$_2$). 4$H_{\rm b}$-TaS$_2$ is a superconducting compound with alternating 1$T$-TaS$_2$ and 1$H$-TaS$_2$ layers, where the 1$H$-TaS$_2$ layer has weak charge density wave (CDW) pattern and reduces the CDW coupling between the adjacent 1$T$-TaS$_2$ layers. In the 1$T$-TaS$_2$ layer of 4$H_{\rm b}$-TaS$_2$, we observe a narrow electronic band located near Fermi level, and its spatial distribution is consistent with the tight-binding calculations for two-dimensional 1$T$-TaS$_2$ layers. The weak electronic hybridization between the 1$T$-TaS$_2$ and 1$H$-TaS$_2$ layers in 4$H_{\rm b}$-TaS$_2$ shifts the narrow electronic band to be slightly above the Fermi level, which suppresses the electronic correlation induced band splitting. In contrast, in bulk 1$T$-TaS$_2$, there is an interlayer CDW coupling induced insulating gap. In comparison with the spatial distributions of the electronic states in bulk 1$T$-TaS$_2$ and 4$H_{\rm b}$-TaS$_2$, the insulating gap in bulk 1$T$-TaS$_2$ results from the formation of a bonding band and an antibonding band due to the overlap of the narrow electronic bands in the dimerized 1$T$-TaS$_2$ layers.

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Mesoscale and Nanoscale Physics Materials Science