Sn-doped Bi$_{\mathrm{1.1}}$Sb$_{\mathrm{0.9}}$Te$_{\mathrm{2}}$S: An ideal bulk topological insulator
ORAL
Abstract
In the recent decade the topological insulators have been of significant importance for the condensed matter community. However, so far no real materials could fulfill all the requirements. Here, we present the Bridgman growth of slightly Sn-doped Bi$_{\mathrm{1.1}}$Sb$_{\mathrm{0.9}}$Te$_{\mathrm{2}}$S (with bulk band gap of \textasciitilde 350) single crystals and characterization by electronic transport, STM and ARPES. The results on the crystals exhibit an intrinsic semiconducting behavior with the Fermi level and Dirac energies lie in bulk gap and high quality 2D surface states are detangled from the bulk states, and it fulfils all the requirements to be an ideal topological insulator. Reference: S K Kushwaha et al., NATURE COMM., 7:11456 (2016).
*ARO MURI W911NF-12-1-0461; ARO W911NF-12-1-0461; MRSEC NSF-DMR-1420541; LBNL & BNL DE-AC02-05CH11231 & DE-SC0012704; DOE Office of Science DE-AC02-06CH11357; NSF DMR-1410846
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