Thickness-dependent electronic structure in 
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 thin films

Xiang, Feixiang; Srinivasan, Ashwin; Du, Z. Z.; Klochan, O.; Dou, Shi Xue; Hamilton, A. R.; Wang, Xiaotian

doi:10.1103/physrevb.98.035115

Cited by 28 publications

(26 citation statements)

References 39 publications

(62 reference statements)

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“…1, D and E). These oscillations confirm the existence of four well-defined Fermi surfaces, consisting of two sets of electron and hole pockets ( 25 ). The presence of both free electrons and holes is believed to be the origin of the extremely large, nonsaturated magnetoresistance in WTe 2 ( 26 – 28 ).…”

Section: Resultssupporting

confidence: 63%

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A room-temperature ferroelectric semimetal

et al. 2019

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Coexistence of reversible polar distortions and metallicity leading to a ferroelectric metal, first suggested by Anderson and Blount in 1965, has so far remained elusive. Electrically switchable intrinsic electric polarization, together with the direct observation of ferroelectric domains, has not yet been realized in a bulk crystalline metal, although incomplete screening by mobile conduction charges should, in principle, be possible. Here, we provide evidence that native metallicity and ferroelectricity coexist in bulk crystalline van der Waals WTe2 by means of electrical transport, nanoscale piezoresponse measurements, and first-principles calculations. We show that, despite being a Weyl semimetal, WTe2 has switchable spontaneous polarization and a natural ferroelectric domain structure at room temperature. This new class of materials has tantalizing potential for functional nanoelectronics applications.

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Section: Resultssupporting

confidence: 63%

“…In this configuration, the electrical current flow across the WTe 2 is strongly suppressed (fig. S3), although the WTe 2 flake is still metallic ( 25 ).…”

Section: Resultsmentioning

confidence: 99%

A room-temperature ferroelectric semimetal

et al. 2019

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“…However, as the period of SdHOs depends inversely on the cross sectional area of the Fermi surface, it will be difficult to observe SdHOs from a relatively large Fermi surface. 23,27,28 Therefore, the result confirms that 2DEG has the dominant role in the collective SdHO signals, which may be because of the relatively small cross sectional area of its Fermi surface and the relatively high carrier density and mobility. The general expression for SdHOs can be described by 23 ΔRðBÞ…”

Section: Resultssupporting

confidence: 57%

Quantum transport characteristics of heavily doped bismuth selenide nanoribbons

et al. 2019

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This work experimentally investigated quantum transport characteristics of heavily doped bismuth selenide topological insulator nanoribbons to understand their physical origins. Transport properties of nanoribbons were measured via a suspended microdevice for eliminating the substrate effect. A series of quantum transport behaviors such as weak antilocalization, Shubnikov-de Haas oscillations, universal conductance fluctuation, and linear perpendicular-field magnetoresistance have been systematically studied to achieve a coherent understanding on their origins in topologically protected surface states, band bending, or bulk states. The parallel-field magnetoresistance, however, is found to be diverse, which can exhibit negative or positive values for the whole measurement range of the magnetic field strength or change from positive to negative values with the increase of the magnetic field strength. The tunable behavior of the parallel-field magnetoresistance is suggested to be the collective effects of the positive magnetoresistance from surface transport and the negative magnetoresistance possibly owing to the axial anomaly, resulting from long-range ionic impurity-scattering processes in bulk carriers.

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“…grapheme, MoS2), it can be treated as a real 2D plasmonic system since the plasmon wavelength is much larger than the film thickness. In fact, it is in principle possible to observe the same hyperbolic plasmons down to about 12 nm, above which the electronic structure is reported to remain the same as that of the thick film 43 . For few layer WTe2 films, the band structures are dramatically modified due to finite-size effects, and it becomes a 2D topological insulator in monolayer limit 44 .…”

Section: Discussionmentioning

confidence: 77%

Van der Waals thin films of WTe2 for natural hyperbolic plasmonic surfaces

et al. 2020

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A hyperbolic plasmonic surface supports highly directional propagating polaritons with extremely large density of states. Such plasmon polaritons have been realized in artificially structured metasurfaces. However, the upper bound of the achievable plasmon wave vector is limited by the structure size, which calls for a natural hyperbolic surface without any structuring. Here, we experimentally demonstrate a natural hyperbolic plasmonic surface based on thin films of WTe2 in the light wavelength range of 16 to 23 microns by far infrared absorption spectroscopy. The topological transition from the elliptic to the hyperbolic regime is further manifested by mapping the iso-frequency contours of the plasmon. Moreover, the anisotropy character and plasmon frequency exhibit prominent temperature dependence. Our study demonstrates the first natural platform to host 2D hyperbolic plasmons, which opens exotic avenues for the manipulation of plasmon propagation, light-matter interaction and light emission in planar photonics.

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Thickness-dependent electronic structure in WTe2 thin films

Cited by 28 publications

References 39 publications

A room-temperature ferroelectric semimetal

A room-temperature ferroelectric semimetal

Quantum transport characteristics of heavily doped bismuth selenide nanoribbons

Van der Waals thin films of WTe2 for natural hyperbolic plasmonic surfaces

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