Your search keyword '"Jiayuan, Hu"' showing total 4 results

1. The chemical states and electronic states of layered carbide superconductor ThMo2Si2C

Author

Qingyin Tian, Cao Wang, Xin Wang, Xiangmin Du, Qingchen Duan, Shugang Tan, Shaohua Liu, Chenhang Xu, Jiayuan Hu, Qi Lu, Shasha Liu, Qiang Jing, Ping Li, and Dong Qian

Subjects

Condensed Matter Physics, Mathematical Physics, Atomic and Molecular Physics, and Optics

Abstract

Understanding the chemical states and electronic states of superconducting materials can help researchers to grasp their superconducting mechanisms. Then, through doping, high pressure or other methods, the T c (Critical Temperature) can be boosted. Recently, a new layered carbide superconductor ThMo2Si2C was discovered. Its chemical states and electronic states are unknown. Here, the chemical states of ThMo2Si2C are investigated using X-ray photoelectron spectroscopy assisted with argon ion sputtering and Raman spectroscopy. The physical significance behind them is elucidated. Its electronic states are investigated by first-principles calculations. It is found that the major contribution to the total DOS (Density of States) is from Mo 4d state, which plays the dominant role in the superconductivity of ThMo2Si2C. The hybridization between Th 6d and Mo 4d is very weak. Thus, a separation of the structure into independent Mo-C-Si and Th subunits (layers) is justified from the point of view of electronic structure. A flat band along the A-M high-symmetry direction is observed near the Fermi level. The influence of the interlayer distance between Mo-C-Si units (layers) on the DOS and band structure is investigated by first-principles calculations too.

Published

2022

2. Topological Dirac surface states in ternary compounds GeBi2Te4, SnBi2Te4 and Sn0.571Bi2.286Se4 *

Author

Jiayuan Hu, Wentao Zhang, Chaozhi Huang, Qiang Jing, Shaofeng Duan, Guohua Wang, Chenhang Xu, Qi Lu, Yunlong Li, and Dong Qian

Subjects

Physics, Quantum mechanics, Dirac (software), General Physics and Astronomy, Ternary operation, Surface states

Abstract

Using high-resolution angle-resolved and time-resolved photoemission spectroscopy, we have studied the low-energy band structures in occupied and unoccupied states of three ternary compounds GeBi2Te4, SnBi2Te4 and Sn0.571Bi2.286Se4 near the Fermi level. In previously confirmed topological insulator GeBi2Te4 compounds, we confirmed the existence of the Dirac surface state and found that the bulk energy gap is much larger than that in the first-principles calculations. In SnBi2Te4 compounds, the Dirac surface state was observed, consistent with the first-principles calculations, indicating that it is a topological insulator. The experimental detected bulk gap is a little bit larger than that in calculations. In Sn0.571Bi2.286Se4 compounds, our measurements suggest that this nonstoichiometric compound is a topological insulator although the stoichiometric SnBi2Se4 compound was proposed to be topological trivial.

Published

2021

3. The phase transition of ThFe1-xCoxAsN from superconductor to metallic paramagnet

Author

Jiayuan Hu, Dong Qian, Bai-Zhuo Li, Shu Zhu, Shubin Li, Fei Jiao, Shugang Tan, Yu-Xue Mei, Cao Wang, Bo Liu, Fuxiang Zhang, Jingfeng Wang, Xianyu Wang, Yuqiang Li, Lingbo Cai, Qiang Jing, Chunhui Yang, Yunlong Li, and Pengwei Song

Subjects

Metal, Superconductivity, Paramagnetism, Phase transition, Materials science, Condensed matter physics, visual_art, visual_art.visual_art_medium, General Physics and Astronomy

Published

2020

4. Topological phase transition of Bi2–xInxTe3

Author

Yunlong Li, Jiayuan Hu, Jingfeng Wang, Chenhang Xu, Fengfeng Zhu, Bo Liu, Dong Qian, Qiang Jing, S. B. Li, M. Y. Yao, Wenxiang Jiang, and Z. Q. Yang

Subjects

Physics, Condensed matter physics, General Physics and Astronomy, Topological order

Published

2020