F. C. Chen scite author profile

We performed the angle dependent magnetoresistance (MR), Hall effect measurements, the temperature dependent magneto-thermoelectric power (TEP) S(T) measurements, and the first-principles calculations to study the electronic properties of orthorhombic phase MoTe2 (Td-MoTe2), which was proposed to be electronically two-dimensional (2D). There are some interesting findings about Td-MoTe2: (1) A scaling approach εθ=(sin 2 θ+γ -2 cos 2 θ) 1/2 is applied, where θ is the magnetic field angle with respect to the c axis of the crystal and γ is the mass anisotropy. Unexpectedly, the electronically 3D character with γ as low as 1.9 is observed in Td-MoTe2; (2) The possible Lifshitz transition and the following electronic structure change can be verified around T~150 K and T~60 K, which is supported by the evidence of the slop changing of the temperature dependence of TEP, the carrier density extracted from Hall resistivity and the onset temperature of γ obtained from the MR measurements. The extremely large MR effect in Td-MoTe2 could originate from the combination of the electron-hole compensation and a particular orbital texture on the electron pocket, which is supported by the calculations of electronic structure. Our results may provide a general scaling relation for the anisotropic MR and help to recognize the origins of the MR effect in other systems, such as the Weyl semimetals and the Dirac ones.

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Superconductivity enhancement in the S-doped Weyl semimetal candidate MoTe2

Chen

Luo

Xiao

et al. 2016

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Two-dimensional (2D) transition-metal dichalcogenide (TMDs) MoTe 2 has attracted much attention due to its predicted Weyl semimetal (WSM) state and a quantum spin Hall insulator in bulk and monolayer form, respectively. We find that the superconductivity in MoTe 2 single crystal can be much enhanced by the partial substitution of the Te ions by the S ones. The maximum of the superconducting temperature T C of MoTe 1.8 S 0.2 single crystal is about 1.3 K. Compared with the parent MoTe 2 single crystal (T C =0.1 K), nearly 13-fold in T C is improved in MoTe 1.8 S 0.2 one.The superconductivity has been investigated by the resistivity and magnetization measurements.MoTe 2-x S x single crystals belong to weak coupling superconductors and the improvement of the superconductivity may be related to the enhanced electron-phonon coupling induced by the S-ion substitution. A dome-shape superconducting phase diagram is obtained in the S-doped MoTe 2 single crystals. MoTe 2-x S x materials may provide a new platform for our understanding of superconductivity phenomena and topological physics in TMDs. II Experimental details 3MoTe 2 and MoTe 2-x S x (0≤x≤1) single crystals were grown by the chemical vapor transport method using polycrystalline MoTe 2 and MoTe 2-x S x as raw materials and I 2 as a transport agent.Firstly, we made the polycrystalline MoTe 2 and MoTe 2-x S x (0≤x≤1). Mo (Alfa Aesar, 99.9 %) and Te or S(Alfa Aesar, 99.9 %) powders with a stoichiometric ratio were ground, pressed into pellets, and put in an evacuated quartz tube. All were done in an Ar-filled glove box. The sealed quartz tube was heated to 800 o C for 20 hours and kept for 7 days, then quenched to ice water. The polycrystalline MoTe 2 or MoTe 2-x S x and the agent I 2 were mixed and sealed into another evacuated quartz tubes. The sealed quartz tubes were put in a two-zone tube furnace. The crystal growth recipe is followed the reported paper.[12] The hot side is about 1000 o C and the cold side is 900 o C, and dwelled for 7 days. In order to improve the quality of single crystals, we quenched the quartz tubes into ice-water as soon as possible before the growth sequence ending. Plate-like shape single crystals with shinning surfaces were obtained. The size of the crystal was about 4*4*0.5 mm 3 . The single crystals were air-stable and can be easily exfoliated. Powder X-ray diffraction (XRD) patterns were taken with Cu K α1 radiation (λ=0.15406 nm) using a PANalytical X'pert diffractometer at room temperature. The element analysis of the single crystals was performed using a commercial energy dispersive spectroscopy (EDS) microprobe. The element compositions of the single crystals used in the text are the ones obtained from EDS measurements.The magnetic properties were carried out by the magnetic property measurement system with a 3 He cryostat (MPMS-XL7). The electrical transport measurements were performed in a 4 He cryostat from 300 K to 2 K, and in a 3 He cryostat down to 0.35 K by a four-probe method to eliminate the contact resistan...

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F. C. Chen

Extremely large magnetoresistance in the type-II Weyl semimetalMoTe2

Superconductivity enhancement in the S-doped Weyl semimetal candidate MoTe2

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