Pressure-Induced Phase Transition in Weyl Semimetallic WTe2

Juan Xia; Dong Fei Li; Jia Dong Zhou; Peng Yu; Jun Hao Lin; Jer Lai Kuo; Hai Bo Li; Zheng Liu; Jia Xu Yan; Ze Xiang Shen

doi:10.1002/smll.201701887

Pressure-Induced Phase Transition in Weyl Semimetallic WTe₂

Juan Xia, Dong Fei Li, Jia Dong Zhou, Peng Yu, Jun Hao Lin, Jer Lai Kuo, Hai Bo Li, Zheng Liu, Jia Xu Yan^*, Ze Xiang Shen

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

48 Citations (Scopus)

Abstract

Tungsten ditelluride (WTe₂) is a semimetal with orthorhombic T_d phase that possesses some unique properties such as Weyl semimetal states, pressure-induced superconductivity, and giant magnetoresistance. Here, the high-pressure properties of WTe₂ single crystals are investigated by Raman microspectroscopy and ab initio calculations. WTe₂ shows strong plane-parallel/plane-vertical vibrational anisotropy, stemming from its intrinsic Raman tensor. Under pressure, the Raman peaks at ≈120 cm⁻¹ exhibit redshift, indicating structural instability of the orthorhombic T_d phase. WTe₂ undergoes a phase transition to a monoclinic T′ phase at 8 GPa, where the Weyl states vanish in the new T′ phase due to the presence of inversion symmetry. Such T_d to T′ phase transition provides a feasible method to achieve Weyl state switching in a single material without doping. The new T′ phase also coincides with the appearance of superconductivity reported in the literature.

Original language	English
Article number	1701887
Journal	Small
Volume	13
Issue number	40
DOIs	https://doi.org/10.1002/smll.201701887
Publication status	Published - Oct 25 2017
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

ASJC Scopus Subject Areas

Biotechnology
General Chemistry
Biomaterials
General Materials Science
Engineering (miscellaneous)

Keywords

first-principles calculations
high pressure
phase transition
Raman spectroscopy
tungsten ditelluride

Access to Document

10.1002/smll.201701887

Cite this

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title = "Pressure-Induced Phase Transition in Weyl Semimetallic WTe2 ",

abstract = "Tungsten ditelluride (WTe2) is a semimetal with orthorhombic Td phase that possesses some unique properties such as Weyl semimetal states, pressure-induced superconductivity, and giant magnetoresistance. Here, the high-pressure properties of WTe2 single crystals are investigated by Raman microspectroscopy and ab initio calculations. WTe2 shows strong plane-parallel/plane-vertical vibrational anisotropy, stemming from its intrinsic Raman tensor. Under pressure, the Raman peaks at ≈120 cm−1 exhibit redshift, indicating structural instability of the orthorhombic Td phase. WTe2 undergoes a phase transition to a monoclinic T′ phase at 8 GPa, where the Weyl states vanish in the new T′ phase due to the presence of inversion symmetry. Such Td to T′ phase transition provides a feasible method to achieve Weyl state switching in a single material without doping. The new T′ phase also coincides with the appearance of superconductivity reported in the literature.",

keywords = "first-principles calculations, high pressure, phase transition, Raman spectroscopy, tungsten ditelluride",

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note = "Publisher Copyright: {\textcopyright} 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim",

year = "2017",

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AU - Li, Dong Fei

AU - Zhou, Jia Dong

AU - Yu, Peng

AU - Lin, Jun Hao

AU - Kuo, Jer Lai

AU - Li, Hai Bo

AU - Liu, Zheng

AU - Yan, Jia Xu

AU - Shen, Ze Xiang

PY - 2017/10/25

Y1 - 2017/10/25

N2 - Tungsten ditelluride (WTe2) is a semimetal with orthorhombic Td phase that possesses some unique properties such as Weyl semimetal states, pressure-induced superconductivity, and giant magnetoresistance. Here, the high-pressure properties of WTe2 single crystals are investigated by Raman microspectroscopy and ab initio calculations. WTe2 shows strong plane-parallel/plane-vertical vibrational anisotropy, stemming from its intrinsic Raman tensor. Under pressure, the Raman peaks at ≈120 cm−1 exhibit redshift, indicating structural instability of the orthorhombic Td phase. WTe2 undergoes a phase transition to a monoclinic T′ phase at 8 GPa, where the Weyl states vanish in the new T′ phase due to the presence of inversion symmetry. Such Td to T′ phase transition provides a feasible method to achieve Weyl state switching in a single material without doping. The new T′ phase also coincides with the appearance of superconductivity reported in the literature.

AB - Tungsten ditelluride (WTe2) is a semimetal with orthorhombic Td phase that possesses some unique properties such as Weyl semimetal states, pressure-induced superconductivity, and giant magnetoresistance. Here, the high-pressure properties of WTe2 single crystals are investigated by Raman microspectroscopy and ab initio calculations. WTe2 shows strong plane-parallel/plane-vertical vibrational anisotropy, stemming from its intrinsic Raman tensor. Under pressure, the Raman peaks at ≈120 cm−1 exhibit redshift, indicating structural instability of the orthorhombic Td phase. WTe2 undergoes a phase transition to a monoclinic T′ phase at 8 GPa, where the Weyl states vanish in the new T′ phase due to the presence of inversion symmetry. Such Td to T′ phase transition provides a feasible method to achieve Weyl state switching in a single material without doping. The new T′ phase also coincides with the appearance of superconductivity reported in the literature.

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