Topological Dirac states in a layered telluride TaPdTe5 with quasi-one-dimensional PdTe2 chains

We report the synthesis and systematic studies of a new layered ternary telluride TaPdTe5 with quasi-one-dimensional PdTe2 chains. This compound crystalizes in a layered orthorhombic structure with space group Cmcm. Analysis of its curved field-dependent Hall resistivity, using the two-band model, i...

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Veröffentlicht in:	Physical review. B 2020-08, Vol.102 (7), p.1
Hauptverfasser:	Jiao, Wen-He, Xie, Xiao-Meng, Liu, Yi, Xu, Xiaofeng, Li, Bin, Xu, Chun-Qiang, Liu, Ji-Yong, Zhou, Wei, Li, Yu-Ke, Yang, Hai-Yang, Jiang, Shan, Luo, Yongkang, Zhu, Zeng-Wei, Cao, Guang-Han
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Schlagworte:	Anisotropy Chains Crystallography Fermi surfaces First principles Intermetallic compounds Low temperature Magnetic fields Magnetoresistance Magnetoresistivity Oscillations Tellurides Topology
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creator	Jiao, Wen-He Xie, Xiao-Meng Liu, Yi Xu, Xiaofeng Li, Bin Xu, Chun-Qiang Liu, Ji-Yong Zhou, Wei Li, Yu-Ke Yang, Hai-Yang Jiang, Shan Luo, Yongkang Zhu, Zeng-Wei Cao, Guang-Han
description	We report the synthesis and systematic studies of a new layered ternary telluride TaPdTe5 with quasi-one-dimensional PdTe2 chains. This compound crystalizes in a layered orthorhombic structure with space group Cmcm. Analysis of its curved field-dependent Hall resistivity, using the two-band model, indicates the hole-dominated transport with a high mobility μh=2.38×103cm2V−1s−1 at low temperatures. The in-plane magnetoresistance (MR) displays significant anisotropy with field applied along the crystallographic b axis. The MR with the current applied along the c axis is also measured in high magnetic fields up to 51.7 T. Remarkably, it follows a power-law dependence and reaches (9.5×103)% at 2.1 K without any signature of saturation. The de Haas–van Alphen oscillations show a small Fermi surface pocket with a nontrivial Berry phase. The Shubnikov–de Haas (SdH) oscillations are detected at low temperatures and under magnetic fields above 28.5 T. Two effective masses m* (0.26me and 0.41me) are extracted from the oscillatory SdH data. Our first-principles calculations unveil a topological Dirac cone in its surface states, and, in particular, the topological index indicates that TaPdTe5 is a topologically nontrivial material.
doi_str_mv	10.1103/PhysRevB.102.075141
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Two effective masses m* (0.26me and 0.41me) are extracted from the oscillatory SdH data. 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This compound crystalizes in a layered orthorhombic structure with space group Cmcm. Analysis of its curved field-dependent Hall resistivity, using the two-band model, indicates the hole-dominated transport with a high mobility μh=2.38×103cm2V−1s−1 at low temperatures. The in-plane magnetoresistance (MR) displays significant anisotropy with field applied along the crystallographic b axis. The MR with the current applied along the c axis is also measured in high magnetic fields up to 51.7 T. Remarkably, it follows a power-law dependence and reaches (9.5×103)% at 2.1 K without any signature of saturation. The de Haas–van Alphen oscillations show a small Fermi surface pocket with a nontrivial Berry phase. The Shubnikov–de Haas (SdH) oscillations are detected at low temperatures and under magnetic fields above 28.5 T. Two effective masses m* (0.26me and 0.41me) are extracted from the oscillatory SdH data. Our first-principles calculations unveil a topological Dirac cone in its surface states, and, in particular, the topological index indicates that TaPdTe5 is a topologically nontrivial material.</abstract><cop>College Park</cop><pub>American Physical Society</pub><doi>10.1103/PhysRevB.102.075141</doi></addata></record>
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subjects	Anisotropy Chains Crystallography Fermi surfaces First principles Intermetallic compounds Low temperature Magnetic fields Magnetoresistance Magnetoresistivity Oscillations Tellurides Topology
title	Topological Dirac states in a layered telluride TaPdTe5 with quasi-one-dimensional PdTe2 chains
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