Spectroscopic evidence for bulk-band inversion and three-dimensional massive Dirac fermions in ZrTe5
Zhi-Guo Chen, R. Y. Chen, R. D. Zhong, John Schneeloch, C. Zhang, Y., Huang, Fanming Qu, Rui Yu, Q. Li, G. D. Gu, N. L. Wang

TL;DR
This study provides spectroscopic evidence of bulk-band inversion and three-dimensional massive Dirac fermions in ZrTe5, confirming its topological insulator state and revealing unique electronic properties under high magnetic fields.
Contribution
It is the first experimental demonstration of bulk-band inversion and 3D massive Dirac fermions in ZrTe5 using infrared transmission spectroscopy.
Findings
Observation of linear optical absorption indicating Dirac fermions
Detection of a small bandgap (~10 meV) in ZrTe5
Identification of Landau level transitions with a dependence at low fields
Abstract
Three-dimensional topological insulators (3D TIs) represent novel states of quantum matters in which surface states are protected by time-reversal symmetry and an inversion occurs between bulk conduction- and valence-bands. However, the bulk-band inversion which is intimately tied to the topologically nontrivial nature of 3D TIs has rarely been investigated by experiments. Besides, 3D massive Dirac fermions with nearly near band dispersions were seldom observed in TIs. Recently, a van der Waals crystal, ZrTe5, was theoretically predicted to be a TI. Here, we report an infrared transmission study of a high-mobility (~33,000 cm/(Vs)) multilayer ZrTe5 flake at magnetic fields () up to 35 T. Our observation of a linear relationship between the zero-magnetic-field optical absorption and the photon energy, a bandgap of ~10 meV and a dependence of the Landau level (LL)…
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