| Literature DB >> 27740840 |
Yonghui Zhou1,2, Pengchao Lu3, Yongping Du3, Xiangde Zhu1, Ganghua Zhang4, Ranran Zhang1, Dexi Shao3, Xuliang Chen1,2, Xuefei Wang2, Mingliang Tian1,5, Jian Sun3,5, Xiangang Wan3,5, Zhaorong Yang1,2,5, Wenge Yang4,6, Yuheng Zhang1,5, Dingyu Xing3,5.
Abstract
We report a new pressure-induced phase in TaAs with different Weyl fermions than the ambient structure with the aid of theoretical calculations, experimental transport and synchrotron structure investigations up to 53 GPa. We show that TaAs transforms from an ambient I4_{1}md phase (t-TaAs) to a high-pressure hexagonal P-6m2 (h-TaAs) phase at 14 GPa, along with changes of the electronic state from containing 24 Weyl nodes distributed at two energy levels to possessing 12 Weyl nodes at an isoenergy level, which substantially reduces the interference between the surface and bulk states. The new pressure-induced phase can be reserved upon releasing pressure to ambient condition, which allows one to study the exotic behavior of a single set of Weyl fermions, such as the interplay between surface states and other properties.Year: 2016 PMID: 27740840 DOI: 10.1103/PhysRevLett.117.146402
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161