Your search keyword '"Mao, Hanqing"' showing total 27 results

1. Absence of BCS-BEC Crossover in FeSe0.45Te0 55 Superconductor

Author

Jia, Junjie, Gu, Yadong, Yin, Chaohui, Shu, Yingjie, Chen, Yiwen, Shi, Jumin, Zhang, Xing, Chen, Hao, Miao, Taimin, Ren, Xiaolin, Liang, Bo, Zhu, Wenpei, Cai, Neng, Zhang, Fengfeng, Zhang, Shenjin, Yang, Feng, Wang, Zhimin, Peng, Qinjun, Xu, Zuyan, Mao, Hanqing, Liu, Guodong, Ren, Zhian, Zhao, Lin, and Zhou, X. J.

Subjects

Condensed Matter - Superconductivity

Abstract

In iron-based superconductor Fe(Se,Te), a flat band-like feature near the Fermi level was observed around the Brillouin zone center in the superconducting state. It is under debate whether this is the evidence on the presence of the BCS-BEC crossover in the superconductor. High-resolution laser-based angle-resolved photoemission measurements are carried out on high quality single crystals of FeSe0.45Te0.55 superconductor to address the issue. By employing different polarization geometries, we have resolved and isolated the dyz band and the topological surface band, making it possible to study their superconducting behaviors separately. The dyz band alone does not form a flat band-like feature in the superconducting state and the measured dispersion can be well described by the BCS picture. We find that the flat band-like feature is formed from the combination of the dyz band and the topological surface state band in the superconducting state. These results reveal the origin of the flat band-like feature and rule out the presence of BCS-BEC crossover in Fe(Se,Te) superconductor.

Published

2024

2. Negligible Normal Fluid in Superconducting State of Heavily Overdoped Bi$_2$Sr$_2$CaCu$_2$O$_{8+\delta}$ Detected by Ultra-Low Temperature Angle-Resolved Photoemission Spectroscopy

Author

Yin, Chaohui, Wang, Qinghong, Xie, Yuyang, Chen, Yiwen, Liu, Junhao, Yang, Jiangang, Jia, Junjie, Zhang, Xing, Lv, Wenkai, Yan, Hongtao, Rong, Hongtao, Zhang, Shenjin, Wang, Zhimin, Zong, Nan, Liu, Lijuan, Li, Rukang, Wang, Xiaoyang, Zhang, Fengfeng, Yang, Feng, Peng, Qinjun, Xu, Zuyan, Liu, Guodong, Mao, Hanqing, Zhao, Lin, Li, Xintong, and Zhou, Xingjiang

Subjects

Condensed Matter - Superconductivity

Abstract

In high temperature cuprate superconductors, it was found that in the overdoped region the superfluid density decreases with the increase of hole doping. One natural question is whether there exists normal fluid in the superconducting state in the overdoped region. In this paper, we have carried out high-resolution ultra-low temperature laser-based angle-resolved photoemission measurements on a heavily overdoped Bi2212 sample with a $T_{\mathrm{c}}$ of 48 K. We find that this heavily overdoped Bi2212 remains in the strong coupling regime with $2 \mathit{\Delta}_0 / k_{\mathrm{B}} T_{\mathrm{c}}=5.8$. The single-particle scattering rate is very small along the nodal direction ($\sim$5 meV) and increases as the momentum moves from the nodal to the antinodal regions. A hard superconducting gap opening is observed near the antinodal region with the spectral weight at the Fermi level fully suppressed to zero. The normal fluid is found to be negligibly small in the superconducting state of this heavily overdoped Bi2212. These results provide key information to understand the high $T_\mathrm{c}$ mechanism in the cuprate superconductors., Comment: 13 pages, 4 figures

Published

2024

3. van Hove Singularity-Driven Emergence of Multiple Flat Bands in Kagome Superconductors

Author

Luo, Hailan, Zhao, Lin, Zhao, Zhen, Yang, Haitao, Huang, Yun-Peng, Liu, Hongxiong, Gu, Yuhao, Jin, Feng, Chen, Hao, Miao, Taimin, Yin, Chaohui, Shen, Chengmin, Ren, Xiaolin, Liang, Bo, Shu, Yingjie, Chen, Yiwen, Zhang, Fengfeng, Yang, Feng, Zhang, Shenjin, Peng, Qinjun, Mao, Hanqing, Liu, Guodong, Hu, Jiangping, Shi, Youguo, Xu, Zuyan, Jiang, Kun, Zhang, Qingming, Wang, Ziqiang, Gao, Hongjun, and Zhou, X. J.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity

Abstract

The newly discovered Kagome superconductors AV$_3$Sb$_5$ (A=K, Rb and Cs) continue to bring surprises in generating unusual phenomena and physical properties, including anomalous Hall effect, unconventional charge density wave, electronic nematicity and time-reversal symmetry breaking. Here we report an unexpected emergence of multiple flat bands in the AV$_3$Sb$_5$ superconductors. By performing high-resolution angle-resolved photoemission (ARPES) measurements, we observed four branches of flat bands that span over the entire momentum space. The appearance of the flat bands is not anticipated from the band structure calculations and cannot be accounted for by the known mechanisms of flat band generation. It is intimately related to the evolution of van Hove singularities. It is for the first time to observe such emergence of multiple flat bands in solid materials. Our findings provide new insights in revealing the underlying mechanism that governs the unusual behaviors in the Kagome superconductors. They also provide a new pathway in producing flat bands and set a platform to study the flat bands related physics., Comment: 20 pages, 4 figures

Published

2024

4. Orbital-Dependent Electron Correlation in Double-Layer Nickelate La3Ni2O7

Author

Yang, Jiangang, Sun, Hualei, Hu, Xunwu, Xie, Yuyang, Miao, Taimin, Luo, Hailan, Chen, Hao, Liang, Bo, Zhu, Wenpei, Qu, Gexing, Chen, Cui-Qun, Huo, Mengwu, Huang, Yaobo, Zhang, Shenjin, Zhang, Fengfeng, Yang, Feng, Wang, Zhimin, Peng, Qinjun, Mao, Hanqing, Liu, Guodong, Xu, Zuyan, Qian, Tian, Yao, Dao-Xin, Wang, Meng, Zhao, Lin, and Zhou, X. J.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

The latest discovery of high temperature superconductivity near 80K in La3Ni2O7 under high pressure has attracted much attention. Many proposals are put forth to understand the origin of superconductivity.The determination of electronic structures is a prerequisite to establish theories to understand superconductivity in nickelates but is still lacking. Here we report our direct measurement of the electronic structures of La3Ni2O7 by high-resolution angle resolved photoemission spectroscopy. The Fermi surface and band structures of La3Ni2O7 are observed and compared with the band structure calculations. Strong electron correlations are revealed which are orbital- and momentum dependent. A flat band is formed from the Ni-3dz2 orbitals around the zone corner which is ~50meV below the Fermi level and exhibits the strongest electron correlation. In many theoretical proposals, this band is expected to play the dominant role in generating superconductivity in La3Ni2O7. Our observations provide key experimental information to understand the electronic structure and origin of high temperature superconductivity in La3Ni2O7., Comment: 20 pages, 5 figures

Published

2023

5. Orbital-dependent electron correlation in double-layer nickelate La3Ni2O7

Author

Yang, Jiangang, Sun, Hualei, Hu, Xunwu, Xie, Yuyang, Miao, Taimin, Luo, Hailan, Chen, Hao, Liang, Bo, Zhu, Wenpei, Qu, Gexing, Chen, Cui-Qun, Huo, Mengwu, Huang, Yaobo, Zhang, Shenjin, Zhang, Fengfeng, Yang, Feng, Wang, Zhimin, Peng, Qinjun, Mao, Hanqing, Liu, Guodong, Xu, Zuyan, Qian, Tian, Yao, Dao-Xin, Wang, Meng, Zhao, Lin, and Zhou, X. J.

Published

2024

6. Nodal s± pairing symmetry in an iron-based superconductor with only hole pockets

Author

Wu, Dingsong, Jia, Junjie, Yang, Jiangang, Hong, Wenshan, Shu, Yingjie, Miao, Taimin, Yan, Hongtao, Rong, Hongtao, Ai, Ping, Zhang, Xing, Yin, Chaohui, Liu, Jieyi, Chen, Houke, Yang, Yiheng, Peng, Cheng, Li, Chenlong, Zhang, Shenjin, Zhang, Fengfeng, Yang, Feng, Wang, Zhimin, Zong, Nan, Liu, Lijuan, Li, Rukang, Wang, Xiaoyang, Peng, Qinjun, Mao, Hanqing, Liu, Guodong, Li, Shiliang, Chen, Yulin, Luo, Huiqian, Wu, Xianxin, Xu, Zuyan, Zhao, Lin, and Zhou, X. J.

Published

2024

7. Observation of Flat Band, Dirac Nodal Lines and Topological Surface States in Kagome Superconductor CsTi$_3$Bi$_5$

Author

Yang, Jiangang, Xie, Yuyang, Zhao, Zhen, Yi, Xinwei, Miao, Taimin, Luo, Hailan, Chen, Hao, Liang, Bo, Zhu, Wenpei, Ye, Yuhan, You, Jing-Yang, Gu, Bo, Zhang, Shenjin, Zhang, Fengfeng, Yang, Feng, Wang, Zhimin, Peng, Qinjun, Mao, Hanqing, Liu, Guodong, Xu, Zuyan, Chen, Hui, Yang, Haitao, Su, Gang, Gao, Hongjun, Zhao, Lin, and Zhou, X. J.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons

Abstract

A kagome lattice of 3d transition metals hosts flat bands, Dirac fermions and saddle points. It provides a versatile platform for achieving topological superconductivity, anomalous Hall effect, unconventional density wave order and quantum spin liquid when the strong correlation, spin-orbit coupling or magnetic order are involved in such a lattice. Here, using laser-based angle-resolved photoemission spectroscopy in combination with density functional theory calculations, we investigate the electronic structure of the newly discovered kagome superconductor CsTi$_3$Bi$_5$, which is isostructural to the AV$_3$Sb$_5$ (A=K, Rb or Cs) kagome superconductors and possesses a perfect two-dimensional kagome network of Titanium. We directly observed a strikingly flat band derived from the local destructive interferences of Bloch wave functions within the kagome lattices. We also identify the type-II Dirac nodal loops around the Brillouin zone center, the type-III Dirac nodal loops around the zone corners and type-III Dirac nodal lines along the k$_z$ direction. In addition, around the Brillouin zone center, Z2 nontrivial topological surface states are also observed which is formed from the band inversion due to strong spin orbital coupling. The simultaneous existence of such multi-sets of nontrivial band structures in one kagome superconductor not only provides good opportunities to study related physics in the kagome lattice but also makes CsTi$_3$Bi$_5$ an ideal system to realize noval quantum phenomena by manipulating its chemical potential with chemical doping or pressure.

Published

2022

8. Nodal s$_\pm$ Pairing Symmetry in an Iron-Based Superconductor with only Hole Pockets

Author

Wu, Dingsong, Jia, Junjie, Yang, Jiangang, Hong, Wenshan, Shu, Yingjie, Miao, Taimin, Yan, Hongtao, Rong, Hongtao, Ai, Ping, Zhang, Xing, Yin, Chaohui, Li, Chenlong, Zhang, Shenjin, Zhang, Fengfeng, Yang, Feng, Wang, Zhimin, Zong, Nan, Liu, Lijuan, Li, Rukang, Wang, Xiaoyang, Peng, Qinjun, Mao, Hanqing, Liu, Guodong, Li, Shiliang, Luo, Huiqian, Wu, Xianxin, Xu, Zuyan, Zhao, Lin, and Zhou, X. J.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

The origin of the high temperature superconductivity in the iron-based superconductors remains elusive after being extensively studied for more than a decade. Determination of the pairing symmetry is essential in understanding the superconductivity mechanism. In the iron-based superconductors that have hole pockets around the Brillouin zone center and electron pockets around the zone corners, the pairing symmetry is generally considered to be s$_\pm$, endowing a sign change in the superconducting gap between the hole and electron pockets. For the iron-based superconductors with only hole pockets, however, a couple of pairing scenarios have been proposed but the exact symmetry is still highly controversial. Here we report our determination of the pairing symmetry in KFe$_2$As$_2$ which is a prototypical iron-based superconductor with hole pockets both around the zone center and around the zone corners. By taking laser-based angle resolved photoemission measurements with super-high resolution and at ultra-low temperature, we have precisely determined the superconducting gap distribution and identified the locations of the gap nodes on all the Fermi surface around the zone center and the zone corners. The complete superconducting gap structure, in combination with the observation of the spin resonance in neutron scattering, provides strong evidence on the s$_\pm$ pairing symmetry in KFe$_2$As$_2$ with a gap sign reversal between the hole pockets around the zone center and the hole pockets around the zone corners. These results unify the pairing symmetry in the hole-doped iron-based superconductors and point to the spin fluctuation as the pairing glue in generating superconductivity.

Published

2022

9. Giant and Reversible Electronic Structure Evolution in a Magnetic Topological Material EuCd2As2

Author

Wang, Yang, Li, Cong, Miao, Taimin, Zhang, Shuai, Li, Yong, Zhou, Liqin, Yang, Meng, Yin, Chaohui, Cai, Yongqing, Song, Chunyao, Luo, Hailan, Chen, Hao, Mao, Hanqing, Zhao, Lin, Deng, Hanbin, Sun, Yingkai, Zhu, Changjiang, Zhang, Fengfeng, Yang, Feng, Wang, Zhimin, Zhang, Shenjin, Peng, Qinjun, Pan, Shuheng, Shi, Youguo, Weng, Hongming, Xiang, Tao, Xu, Zuyan, and Zhou, X. J.

Subjects

Condensed Matter - Materials Science

Abstract

The electronic structure and the physical properties of quantum materials can be significantly altered by charge carrier doping and magnetic state transition. Here we report a discovery of a giant and reversible electronic structure evolution with doping in a magnetic topological material. By performing high-resolution angle-resolved photoemission measurements on EuCd2As2,we found that a huge amount of hole doping can be introduced into the sample surface due to surface absorption. The electronic structure exhibits a dramatic change with the hole doping which can not be described by a rigid band shift. Prominent band splitting is observed at high doping which corresponds to a doping-induced magnetic transition at low temperature (below -15 K) from an antiferromagnetic state to a ferromagnetic state. These results have established a detailed electronic phase diagram of EuCd2As2 where the electronic structure and the magnetic structure change systematically and dramatically with the doping level. They further suggest that the transport, magnetic and topological properties of EuCd2As2 can be greatly modified by doping. These work will stimulate further investigations to explore for new phenomena and properties in doping this magnetic topological material., Comment: 22 pages,5 figures

Published

2022

10. Mitochondrial homeostasis in odontoblast: Physiology, pathogenesis and targeting strategies

Author

Meng, Xiang, Mao, Hanqing, Wan, Minting, Lu, Linxin, Chen, Zhi, and Zhang, Lu

Published

2024

11. Observation of flat band, Dirac nodal lines and topological surface states in Kagome superconductor CsTi3Bi5

Author

Yang, Jiangang, Yi, Xinwei, Zhao, Zhen, Xie, Yuyang, Miao, Taimin, Luo, Hailan, Chen, Hao, Liang, Bo, Zhu, Wenpei, Ye, Yuhan, You, Jing-Yang, Gu, Bo, Zhang, Shenjin, Zhang, Fengfeng, Yang, Feng, Wang, Zhimin, Peng, Qinjun, Mao, Hanqing, Liu, Guodong, Xu, Zuyan, Chen, Hui, Yang, Haitao, Su, Gang, Gao, Hongjun, Zhao, Lin, and Zhou, X. J.

Published

2023

12. Electronic Nature of Charge Density Wave and Electron-Phonon Coupling in Kagome Superconductor KV$_3$Sb$_5$

Author

Luo, Hailan, Gao, Qiang, Liu, Hongxiong, Gu, Yuhao, Wu, Dingsong, Yi, Changjiang, Jia, Junjie, Wu, Shilong, Luo, Xiangyu, Xu, Yu, Zhao, Lin, Wang, Qingyan, Mao, Hanqing, Liu, Guodong, Zhu, Zhihai, Shi, Youguo, Jiang, Kun, Hu, Jiangping, Xu, Zuyan, and Zhou, X. J.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

The Kagome superconductors AV3Sb5 (A=K, Rb, Cs) have received enormous attention due to their nontrivial topological electronic structure, anomalous physical properties and superconductivity. Unconventional charge density wave (CDW) has been detected in AV3Sb5. High-precision electronic structure determination is essential to understand its origin. Here we unveil electronic nature of the CDW phase in our high-resolution angle-resolved photoemission measurements on KV3Sb5. We have observed CDW-induced Fermi surface reconstruction and the associated band folding. The CDW-induced band splitting and the associated gap opening have been revealed at the boundary of the pristine and reconstructed Brillouin zones. The Fermi surface- and momentum-dependent CDW gap is measured and the strongly anisotropic CDW gap is observed for all the V-derived Fermi surface. In particular, we have observed signatures of the electron-phonon coupling in KV3Sb5. These results provide key insights in understanding the nature of the CDW state and its interplay with superconductivity in AV3Sb5 superconductors., Comment: 21 pages, 5 figures

Published

2021

13. Thermal dynamics of charge density wave pinning in ZrTe3

Author

Liu, Limin, Zhu, Changjiang, Liu, Z. Y., Deng, Hanbin, Zhou, X. B., Li, Yuan, Sun, Yingkai, Huang, Xiong, Li, Shuaishuai, Du, Xin, Wang, Zheng, Guan, Tong, Mao, Hanqing, Sui, Y., Wu, Rui, Yin, Jia-Xin, Cheng, J. -G., and Pan, Shuheng H.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

Impurity pinning has long been discussed to have a profound effect on the dynamics of an incommensurate charge density wave (CDW), which would otherwise slide through the lattice without resistance. Here we visualize the impurity pinning evolution of the CDW in ZrTe3 using the variable temperature scanning tunneling microscopy (STM). At low temperatures, we observe a quasi-1D incommensurate CDW modulation moderately correlated to the impurity positions, indicating a weak impurity pinning. As we raise the sample temperature, the CDW modulation gets progressively weakened and distorted, while the correlation with the impurities becomes stronger. Above the CDW transition temperature, short-range modulations persist with the phase almost all pinned by impurities. The evolution from weak to strong impurity pinning through the CDW transition can be understood as a result of losing phase rigidity.

Published

2021

14. Tertiary Lymphoid Structures Are Related to Inflammatory Progression and Bone Loss in Human Apical Periodontitis

Author

Liu, Jiayi, Yue, Junli, Wang, Konghuai, Zhou, Lu, Mao, Hanqing, Chen, Zhi, Li, Qiuhui, and Zhang, Lu

Published

2023

15. Experimental evidence for field-induced metamagnetic transition of EuCd2As2

Author

Sun, Yingkai, Li, Yong, Li, Shuaishuai, Yi, Changjiang, Deng, Hanbin, Du, Xin, Liu, Limin, Zhu, Changjiang, Li, Yuan, Wang, Zheng, Mao, Hanqing, Shi, Youguo, and Wu, Rui

Published

2022

16. Electronic nature of charge density wave and electron-phonon coupling in kagome superconductor KV3Sb5

Author

Luo, Hailan, Gao, Qiang, Liu, Hongxiong, Gu, Yuhao, Wu, Dingsong, Yi, Changjiang, Jia, Junjie, Wu, Shilong, Luo, Xiangyu, Xu, Yu, Zhao, Lin, Wang, Qingyan, Mao, Hanqing, Liu, Guodong, Zhu, Zhihai, Shi, Youguo, Jiang, Kun, Hu, Jiangping, Xu, Zuyan, and Zhou, X. J.

Published

2022

17. Nlrp3 inflammasome drives regulatory T cell depletion to accelerate periapical bone erosion

Author

Wang, Konghuai, primary, Liu, Jiayi, additional, Yue, Junli, additional, Zhou, Lu, additional, Mao, Hanqing, additional, Li, Jiaqi, additional, Sun, Zhijun, additional, Chen, Zhi, additional, and Zhang, Lu, additional

Published

2024

18. Study on the Repair Effect of Self-Healing Cementitious Material with Urea-Formaldehyde Resin/Epoxy Resin Microcapsule.

Author

Mao, Hanqing, Cao, Xuemei, Guo, Minru, Jiang, Chaozhe, and Chen, De

Subjects

RADIAL distribution function, UREA-formaldehyde resins, SELF-healing materials, MOLECULAR dynamics, TENSILE strength, MORTAR

Abstract

Recent studies on microencapsulated self-healing cementitious materials have primarily focused on the particle size and preparation methods of the microcapsules. However, there has been limited attention paid to the microscopic aspects, such as the selection of curing agents and the curing duration of these materials. In this study, urea-formaldehyde resin/epoxy resin E-51 microcapsules were synthesized through in situ polymerization. This research investigates the feasibility of self-healing from a molecular mechanism perspective and evaluates the repair performance of microencapsulated self-healing cement mortar with varying microcapsule concentrations, curing agent types, and curing ages. The findings demonstrate that the microcapsule shells bond effectively with the cementitious matrix, with radial distribution function peaks all located within 3.5 Å. The incorporation of microcapsules enhanced the tensile strength of the modified cement mortar by 116.83% and increased the failure strain by 110%, indicating improved adhesion and mechanical properties. The restorative agent released from the microcapsule core provided greater strength after curing compared to the uncured state. Although the overall strength of the microencapsulated self-healing cement mortar decreased with higher microcapsule concentrations, the repair efficiency improved. The strength recovery rate of 28-day aged modified cement mortar had a significant improvement with the addition of X and Y curing agents, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

19. Orbital-dependent electron correlation in double-layer nickelate La3Ni2O7.

Author

Yang, Jiangang, Sun, Hualei, Hu, Xunwu, Xie, Yuyang, Miao, Taimin, Luo, Hailan, Chen, Hao, Liang, Bo, Zhu, Wenpei, Qu, Gexing, Chen, Cui-Qun, Huo, Mengwu, Huang, Yaobo, Zhang, Shenjin, Zhang, Fengfeng, Yang, Feng, Wang, Zhimin, Peng, Qinjun, Mao, Hanqing, and Liu, Guodong

Subjects

HIGH temperature superconductivity, FERMI surfaces, PHOTOELECTRON spectroscopy, FERMI level, ELECTRONIC structure, PHOTOEMISSION, ELECTRON configuration

Abstract

The latest discovery of high temperature superconductivity near 80 K in La3Ni2O7 under high pressure has attracted much attention. Many proposals are put forth to understand the origin of superconductivity. The determination of electronic structures is a prerequisite to establish theories to understand superconductivity in nickelates but is still lacking. Here we report our direct measurement of the electronic structures of La3Ni2O7 by high-resolution angle-resolved photoemission spectroscopy. The Fermi surface and band structures of La3Ni2O7 are observed and compared with the band structure calculations. Strong electron correlations are revealed which are orbital- and momentum-dependent. A flat band is formed from the Ni-3d z 2 orbitals around the zone corner which is ~ 50 meV below the Fermi level and exhibits the strongest electron correlation. In many theoretical proposals, this band is expected to play the dominant role in generating superconductivity in La3Ni2O7. Our observations provide key experimental information to understand the electronic structure and origin of high temperature superconductivity in La3Ni2O7. Recently, superconductivity near 80 K was observed in La3Ni2O7 under high pressure, but the mechanism is debated. Here the authors report angle-resolved photoemission spectroscopy measurements under ambient pressure, revealing flat bands with strong electronic correlations that could be linked to superconductivity. [ABSTRACT FROM AUTHOR]

Published

2024

20. Intrinsic Electronic Structure and Nodeless Superconducting Gap of YBa2Cu3O7−δ Observed by Spatially-Resolved Laser-Based Angle Resolved Photoemission Spectroscopy

Author

Li, Shuaishuai, primary, Miao, Taimin, additional, Yin, Chaohui, additional, Li, Yinghao, additional, Yan, Hongtao, additional, Chen, Yiwen, additional, Liang, Bo, additional, Chen, Hao, additional, Zhu, Wenpei, additional, Zhang, Shenjin, additional, Wang, Zhimin, additional, Zhang, Fengfeng, additional, Yang, Feng, additional, Peng, Qinjun, additional, Lin, Chengtian, additional, Mao, Hanqing, additional, Liu, Guodong, additional, Xu, Zuyan, additional, Zhao, Lin, additional, and Zhou, X. J., additional

Published

2023

21. Intercellular mitochondrial transfer alleviates pyroptosis in dental pulp damage

Author

Wang, Konghuai, primary, Zhou, Lu, additional, Mao, Hanqing, additional, Liu, Jiayi, additional, Chen, Zhi, additional, and Zhang, Lu, additional

Published

2023

22. Nodal s±pairing symmetry in an iron-based superconductor with only hole pockets

Author

Wu, Dingsong, Jia, Junjie, Yang, Jiangang, Hong, Wenshan, Shu, Yingjie, Miao, Taimin, Yan, Hongtao, Rong, Hongtao, Ai, Ping, Zhang, Xing, Yin, Chaohui, Liu, Jieyi, Chen, Houke, Yang, Yiheng, Peng, Cheng, Li, Chenlong, Zhang, Shenjin, Zhang, Fengfeng, Yang, Feng, Wang, Zhimin, Zong, Nan, Liu, Lijuan, Li, Rukang, Wang, Xiaoyang, Peng, Qinjun, Mao, Hanqing, Liu, Guodong, Li, Shiliang, Chen, Yulin, Luo, Huiqian, Wu, Xianxin, Xu, Zuyan, Zhao, Lin, and Zhou, X. J.

Abstract

The origin of high-temperature superconductivity in iron-based superconductors is still not understood; determination of the pairing symmetry is essential for understanding the superconductivity mechanism. In the iron-based superconductors that have hole pockets around the Brillouin zone centre and electron pockets around the zone corners, the pairing symmetry is generally considered to be s±, which indicates a sign change in the superconducting gap between the hole and electron pockets. For the iron-based superconductors with only hole pockets, however, a couple of pairing scenarios have been proposed, but the exact symmetry is still controversial. Here we determine that the pairing symmetry in KFe2As2—which is a prototypical iron-based superconductor with hole pockets both around the zone centre and around the zone corners—is also of the s±type. Our laser-based angle-resolved photoemission measurements have determined the superconducting gap distribution and identified the locations of the gap nodes on all the Fermi surfaces around the zone centres and the zone corners. These results unify the pairing symmetry in hole-doped iron-based superconductors and point to spin fluctuation as the pairing glue in generating superconductivity.

Published

2024

23. Observation of flat band, Dirac nodal lines and topological surface states in Kagome superconductor CsTi3Bi5.

Author

Yang, Jiangang, Yi, Xinwei, Zhao, Zhen, Xie, Yuyang, Miao, Taimin, Luo, Hailan, Chen, Hao, Liang, Bo, Zhu, Wenpei, Ye, Yuhan, You, Jing-Yang, Gu, Bo, Zhang, Shenjin, Zhang, Fengfeng, Yang, Feng, Wang, Zhimin, Peng, Qinjun, Mao, Hanqing, Liu, Guodong, and Xu, Zuyan

Subjects

SURFACE states, QUANTUM spin liquid, PHOTOEMISSION, SUPERCONDUCTORS, BLOCH waves, SEMIMETALS, ANOMALOUS Hall effect, ALKALI metals

Abstract

Kagome lattices of various transition metals are versatile platforms for achieving anomalous Hall effects, unconventional charge-density wave orders and quantum spin liquid phenomena due to the strong correlations, spin-orbit coupling and/or magnetic interactions involved in such a lattice. Here, we use laser-based angle-resolved photoemission spectroscopy in combination with density functional theory calculations to investigate the electronic structure of the newly discovered kagome superconductor CsTi3Bi5, which is isostructural to the AV3Sb5 (A = K, Rb or Cs) kagome superconductor family and possesses a two-dimensional kagome network of titanium. We directly observe a striking flat band derived from the local destructive interference of Bloch wave functions within the kagome lattice. In agreement with calculations, we identify type-II and type-III Dirac nodal lines and their momentum distribution in CsTi3Bi5 from the measured electronic structures. In addition, around the Brillouin zone centre, Z 2 nontrivial topological surface states are also observed due to band inversion mediated by strong spin-orbit coupling. Kagome superconductors host a panoply of condensed matter phenomena, some of which are mediated by band topology. Here, authors use ARPES and DFT to identify type-II and type-III Dirac nodal lines, flat bands and topological surface states in the kagome metal CsTi3Bi5. [ABSTRACT FROM AUTHOR]

Published

2023

24. Giant and reversible electronic structure evolution in a magnetic topological material EuCd2As2

Author

Wang, Yang, primary, Li, Cong, additional, Miao, Taimin, additional, Zhang, Shuai, additional, Li, Yong, additional, Zhou, Liqin, additional, Yang, Meng, additional, Yin, Chaohui, additional, Cai, Yongqing, additional, Song, Chunyao, additional, Luo, Hailan, additional, Chen, Hao, additional, Mao, Hanqing, additional, Zhao, Lin, additional, Deng, Hanbin, additional, Sun, Yingkai, additional, Zhu, Changjiang, additional, Zhang, Fengfeng, additional, Yang, Feng, additional, Wang, Zhimin, additional, Zhang, Shenjin, additional, Peng, Qinjun, additional, Pan, Shuheng, additional, Shi, Youguo, additional, Weng, Hongming, additional, Xiang, Tao, additional, Xu, Zuyan, additional, and Zhou, X. J., additional

Published

2022

25. Electronic Nature of Charge Density Wave and Electron-Phonon Coupling in Kagome Superconductor KV3Sb5

Author

Zhou, Xingjiang, primary, Luo, Hai-Lan, additional, Gao, Qiang, additional, Liu, Hongxiong, additional, Gu, Yuhao, additional, Wu, Ding-Song, additional, Yi, Changjiang, additional, Jia, Junjie, additional, Wu, Shilong, additional, Luo, Xiangyu, additional, Xu, Yu, additional, Zhao, Lin, additional, Wang, Qing-Yan, additional, Mao, Hanqing, additional, Liu, Guodong, additional, Zhu, Zhihai, additional, Shi, Youguo, additional, Jiang, Kun, additional, Hu, Jiangping, additional, and Xu, Zuyan, additional

Published

2021

26. Thermal Dynamics of Charge Density Wave Pinning in ZrTe3

Author

Liu, Limin, primary, Zhu, Changjiang, additional, Liu, Z. Y., additional, Deng, Hanbin, additional, Zhou, X. B., additional, Li, Yuan, additional, Sun, Yingkai, additional, Huang, Xiong, additional, Li, Shuaishuai, additional, Du, Xin, additional, Wang, Zheng, additional, Guan, Tong, additional, Mao, Hanqing, additional, Sui, Y., additional, Wu, Rui, additional, Yin, Jia-Xin, additional, Cheng, J.-G., additional, and Pan, Shuheng H., additional

Published

2021

27. Electronic nature of charge density wave and electron-phonon coupling in kagome superconductor KV3Sb5.

Author

Luo, Hailan, Gao, Qiang, Liu, Hongxiong, Gu, Yuhao, Wu, Dingsong, Yi, Changjiang, Jia, Junjie, Wu, Shilong, Luo, Xiangyu, Xu, Yu, Zhao, Lin, Wang, Qingyan, Mao, Hanqing, Liu, Guodong, Zhu, Zhihai, Shi, Youguo, Jiang, Kun, Hu, Jiangping, Xu, Zuyan, and Zhou, X. J.

Subjects

CHARGE density waves, MAJORANA fermions, SUPERCONDUCTORS, FERMI surfaces, SURFACE reconstruction, BRILLOUIN zones

Abstract

The Kagome superconductors AV3Sb5 (A = K, Rb, Cs) have received enormous attention due to their nontrivial topological electronic structure, anomalous physical properties and superconductivity. Unconventional charge density wave (CDW) has been detected in AV3Sb5. High-precision electronic structure determination is essential to understand its origin. Here we unveil electronic nature of the CDW phase in our high-resolution angle-resolved photoemission measurements on KV3Sb5. We have observed CDW-induced Fermi surface reconstruction and the associated band folding. The CDW-induced band splitting and the associated gap opening have been revealed at the boundary of the pristine and reconstructed Brillouin zones. The Fermi surface- and momentum-dependent CDW gap is measured and the strongly anisotropic CDW gap is observed for all the V-derived Fermi surface. In particular, we have observed signatures of the electron-phonon coupling in KV3Sb5. These results provide key insights in understanding the nature of the CDW state and its interplay with superconductivity in AV3Sb5 superconductors. The impact of the charge density wave (CDW) state to the electronic structure in the Kagome superconductors AV3Sb5 remains unclear. Here, the authors observe CDW-induced Fermi surface reconstruction with a strongly anisotropic CDW gap and signatures of the electron-phonon coupling for all V-derived bands. [ABSTRACT FROM AUTHOR]

Published

2022