Yi‐Yan Wang scite author profile

In topological insulators (TIs), metallic surface conductance saturates the insulating bulk resistance with decreasing temperature, resulting in resistivity plateau at low temperatures as a transport signature originating from metallic surface modes protected by time reversal symmetry (TRS). Such characteristic has been found in several materials including Bi2Te2Se, SmB6 etc. Recently, similar behavior has been observed in metallic compound LaSb, accompanying an extremely large magetoresistance (XMR). Shubnikov-de Hass (SdH) oscillation at low temperatures further confirms the metallic behavior of plateau region under magnetic fields. LaSb [1] has been proposed by the authors as a possible topological semimetal (TSM), while negative magnetoresistance is absent at this moment. Here, high quality single crystals of NbAs2/TaAs2 with inversion symmetry have been grown and the resistivity under magnetic field is systematically investigated. Both of them exhibit metallic behavior under zero magnetic field, and a metal-to-insulator transition occurs when a nonzero magnetic field is applied, resulting in XMR (1.0×10 5 % for NbAs2 and 7.3×10 5 % for TaAs2 at 2.5 K & 14 T). With temperature decreased, a resistivity plateau emerges after the insulator-like regime and SdH oscillation has also been observed in NbAs2 and TaAs2.

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Raman scattering in the transition-metal dichalcogenides of 1T′−MoTe2,Td−MoTe2

Guo

et al. 2016

Phys. Rev. B

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We performed comparable polarized Raman scattering studies of MoTe2 and WTe2. By rotating crystals to tune the angle between the principal axis of the crystals and the polarization of the incident/scattered light, we obtained the angle dependence of the intensities for all the observed modes, which is perfectly consistent with careful symmetry analysis. Combining these results with first-principles calculations, we clearly identified the observed phonon modes in the different phases of both crystals.Fifteen Raman-active phonon modes (10Ag+5Bg) in the high-symmetry phase 1T'-MoTe2 (300 K) were well assigned, and all the symmetry-allowed Raman modes (11A1+6A2) in the low-symmetry phase Td-MoTe2 (10 K) and 12 Raman phonons (8A1+4A2) in Td-WTe2 were observed and identified. The present work provides basic information about the lattice dynamics in transition-metal dichalcogenides and may shed some light on the understanding of the extremely large magnetoresistance (MR) in this class of materials.

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Magnetoresistance and Shubnikov-de Haas oscillation in YSb

Wang

Lou

et al. 2017

EPL

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YSb crystals are grown and the transport properties under magnetic field are measured. The resistivity exhibits metallic behavior under zero magnetic field and the low temperature resistivity shows a clear upturn once a moderate magnetic field is applied. The upturn is greatly enhanced by increasing magnetic field, finally resulting in a metal-to-insulator-like transition. With temperature further decreased, a resistivity plateau emerges after the insulator-like regime. At low temperature (2.5 K) and high field (14 T), the transverse magnetoresistance (MR) is quite large (3.47 × 10 4 %). In addition, Shubnikov-de Haas (SdH) oscillation has also been observed in YSb. Periodic behavior of the oscillation amplitude reveals the related information about Fermi surface and two major oscillation frequencies can be obtained from the FFT spectra of the oscillations. The trivial Berry phase extracted from SdH oscillation, band structure revealed by angle-resolved photoemission spectroscopy (ARPES) and first-principles calculations demonstrate that YSb is a topologically trivial material. 71.30.+h, 72.15.Eb * These authors contributed equally to this paper †

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Quantum oscillations and coherent interlayer transport in a new topological Dirac semimetal candidate YbMnSb2

Wang

Sun

et al. 2018

Phys. Rev. Materials

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Dirac semimetals (DSMs), which host Dirac fermions and represent new state of quantum matter, have been studied intensively in condensed matter physics. The exploration of new materials with topological states is important in both physics and materials science. In this article, we report the synthesis and the transport properties of high quality single crystals of YbMnSb2. YbMnSb2 is a new compound with metallic behavior. Quantum oscillations, including Shubnikov-de Haas (SdH) oscillation and de Haas-van Alphen (dHvA) type oscillation, have been observed at low temperature and high magnetic field. Small effective masses and nontrivial Berry phase are extracted from the analyses of quantum oscillations, which provide the transport evidence for the possible existence of Dirac fermions in YbMnSb2. The measurements of angular-dependent interlayer magnetoresistance (MR) indicate the interlayer transport is coherent. The Fermi surface (FS) of YbMnSb2 possesses quasi-two dimensional (2D) characteristic as determined by the angular dependence of SdH oscillation frequency. These findings suggest that YbMnSb2 is a new candidate of topological Dirac semimetal.

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Large linear magnetoresistance in a new Dirac material BaMnBi ₂

Wang

Xia

2016

Chinese Phys. B

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We report the synthesis of high quality single crystals of BaMnBi2 and investigate the transport properties of the samples. The Hall data reveals electron-type carriers and a mobility µ(5K) = 1500cm 2 /V s. The temperature dependence of magnetization displays behavior that is different from CaMnBi2 or SrMnBi2, which suggests the possible different magnetic structure of BaMnBi2. Angle-dependent magnetoresistance reveals the quasitwo-dimensional Fermi surface. A crossover from semiclassical MR∼H 2 dependence in low field to MR∼H dependence in high field is observed in transverse magnetoresistance. Our results indicate the anisotropic Dirac fermion states in BaMnBi2.

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Yi‐Yan Wang

Resistivity plateau and extremely large magnetoresistance inNbAs2andTaAs2

Raman scattering in the transition-metal dichalcogenides of 1T′−MoTe2,Td−MoTe2

Magnetoresistance and Shubnikov-de Haas oscillation in YSb

Quantum oscillations and coherent interlayer transport in a new topological Dirac semimetal candidate YbMnSb2

Large linear magnetoresistance in a new Dirac material BaMnBi ₂

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Yi‐Yan Wang

Resistivity plateau and extremely large magnetoresistance inNbAs2andTaAs2

Raman scattering in the transition-metal dichalcogenides of 1T′−MoTe2,Td−MoTe2

Magnetoresistance and Shubnikov-de Haas oscillation in YSb

Quantum oscillations and coherent interlayer transport in a new topological Dirac semimetal candidate YbMnSb2

Large linear magnetoresistance in a new Dirac material BaMnBi 2

Contact Info

Product

Resources

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Large linear magnetoresistance in a new Dirac material BaMnBi ₂