Your search keyword '"Li, Yidian"' showing total 26 results

1. Quantum-Confined Tunable Ferromagnetism on the Surface of a van der Waals Antiferromagnet NaCrTe2

Author

Li, Yidian, Du, Xian, Wang, Junjie, Xu, Runzhe, Zhao, Wenxuan, Zhai, Kaiyi, Liu, Jieyi, Chen, Houke, Yang, Yiheng, Plumb, Nicolas C., Ju, Sailong, Shi, Ming, Liu, Zhongkai, Guo, Jiangang, Chen, Xiaolong, Chen, Yulin, and Yang, Lexian

Subjects

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

Abstract

The surface of three-dimensional materials provides an ideal and versatile platform to explore quantum-confined physics. Here, we systematically investigate the electronic structure of Na-intercalated CrTe2, a van der Waals antiferromagnet, using angle-resolved photoemission spectroscopy and ab-initio calculations. The measured band structure deviates from the calculation of bulk NaCrTe2 but agrees with that of ferromagnetic monolayer CrTe2. Consistently, we observe an unexpected exchange splitting of the band dispersions, persisting well above the N\'eel temperature of bulk NaCrTe2. We argue that NaCrTe2 features a quantum-confined 2D ferromagnetic state in the topmost surface layer due to strong ferromagnetic correlation in the CrTe2 layer. Moreover, the exchange splitting and the critical temperature can be controlled by surface doping of alkali-metal atoms, suggesting a feasible tunability of the surface ferromagnetism. Our work not only presents a simple platform to explore tunable 2D ferromagnetism but also provides important insights into the quantum-confined low-dimensional magnetic states.

Published

2024

2. Discovery of terahertz-frequency orbitally-coupled magnons in a kagome ferromagnet

Author

Che, Mengqian, Chen, Weizhao, Wang, Maoyuan, Bartram, F. Michael, Liu, Liangyang, Dong, Xuebin, Liu, Jinjin, Li, Yidian, Lin, Hao, Wang, Zhiwei, Liu, Enke, Yao, Yugui, Yuan, Zhe, Zhang, Guang-Ming, and Yang, Luyi

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

In ferromagnetic materials, magnons - quanta of spin waves - typically resonate in the gigahertz range. Beyond conventional magnons, while theoretical studies have predicted magnons associated with orbital magnetic moments, their direct observation has remained challenging. Here, we present the discovery of two distinct terahertz orbitally-coupled magnon resonances in the topological kagome ferromagnet Co3Sn2S2. Using time-resolved Kerr rotation spectroscopy, we pinpoint two magnon resonances at 0.61 and 0.49 THz at 6 K, surpassing all previously reported magnon resonances in ferromagnets due to strong magnetocrystalline anisotropy. These dual modes originate from the strong coupling of localized spin and orbital magnetic moments. These findings unveil a novel category of magnons stemming from orbital magnetic moments, and position Co3Sn2S2 as a promising candidate for high-speed terahertz spintronic applications

Published

2024

3. Electronic Correlation and Pseudogap-like Behavior of High-Temperature Superconductor La3Ni2O7

Author

Li, Yidian, Du, Xian, Cao, Yantao, Pei, Cuiying, Zhang, Mingxin, Zhao, Wenxuan, Zhai, Kaiyi, Xu, Runzhe, Liu, Zhongkai, Li, Zhiwei, Zhao, Jinkui, Li, Gang, Qi, Yanpeng, Guo, Hanjie, Chen, Yulin, and Yang, Lexian

Subjects

Condensed Matter - Superconductivity

Abstract

High-temperature superconductivity (HTSC) remains one of the most challenging and fascinating mysteries in condensed matter physics. Recently, superconductivity with transition temperature exceeding liquid-nitrogen temperature is discovered in La3Ni2O7 at high pressure, which provides a new platform to explore the unconventional HTSC. In this work, using high-resolution angle-resolved photoemission spectroscopy and ab-initio calculation, we systematically investigate the electronic structures of La3Ni2O7 at ambient pressure. Our experiments are in nice agreement with ab-initio calculations after considering an orbital-dependent band renormalization effect. The strong electron correlation effect pushes a flat band of d_(z^2 ) orbital component below the Fermi level (EF), which is predicted to locate right at EF under high pressure. Moreover, the d_(x^2-y^2 ) band shows a pseudogap-like behavior with suppressed spectral weight and diminished quasiparticle peak near EF. Our findings provide important insights into the electronic structure of La3Ni2O7, which will shed light on the understanding of the unconventional superconductivity in nickelates.

Published

2024

4. Correlated Electronic Structure and Incipient Flat Bands of the Kagome Superconductor CsCr3Sb5

Author

Li, Yidian, Liu, Yi, Du, Xian, Wu, Siqi, Zhao, Wenxuan, Zhai, Kaiyi, Hu, Yinqi, Zhang, Senyao, Chen, Houke, Liu, Jieyi, Yang, Yiheng, Peng, Cheng, Hashimoto, Makoto, Lu, Donghui, Liu, Zhongkai, Wang, Yilin, Chen, Yulin, Cao, Guanghan, and Yang, Lexian

Subjects

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

Abstract

Kagome materials exhibit many novel phenomena emerging from the interplay between lattice geometry, electronic structure, and topology. A prime example is the vanadium-based kagome materials AV3Sb5 (A = K, Rb, and Cs) with superconductivity and unconventional charge-density wave (CDW). More interestingly, the substitution of vanadium by chromium further introduces magnetism and enhances the correlation effect in CsCr3Sb5 which likewise exhibits superconductivity under pressure and competing density-wave state. Here we systematically investigate the electronic structure of CsCr3Sb5 using high-resolution angle-resolved photoemission spectroscopy (APRES) and ab-initio calculations. Overall, the measured electronic structure agrees with the theoretical calculation. Remarkably, Cr 3d orbitals exhibit incoherent electronic states and contribute to incipient flat bands close to the Fermi level. The electronic structure shows a minor change across the magnetic transition at 55 K, suggesting a weak interplay between the local magnetic moment and itinerant electrons. Furthermore, we reveal a drastic enhancement of the electron scattering rate across the magnetic transition, which is relevant to the semiconducting-like transport property of the system at high temperatures. Our results suggest that CsCr3Sb5 is a strongly correlated Hund's metal with incipient flat bands near the Fermi level, which provides an electronic basis for understanding its novel properties in comparison to the non-magnetic and weakly correlated AV3Sb5.

Published

2024

5. Electrical 180o switching of N\'eel vector in spin-splitting antiferromagnet

Author

Han, Lei, Fu, Xizhi, Peng, Rui, Cheng, Xingkai, Dai, Jiankun, Liu, Liangyang, Li, Yidian, Zhang, Yichi, Zhu, Wenxuan, Bai, Hua, Zhou, Yongjian, Liang, Shixuan, Chen, Chong, Wang, Qian, Chen, Xianzhe, Yang, Luyi, Zhang, Yang, Song, Cheng, Liu, Junwei, and Pan, Feng

Subjects

Condensed Matter - Materials Science

Abstract

Antiferromagnetic spintronics have attracted wide attention due to its great potential in constructing ultra-dense and ultra-fast antiferromagnetic memory that suits modern high-performance information technology. The electrical 180o switching of N\'eel vector is a long-term goal for developing electrical-controllable antiferromagnetic memory with opposite N\'eel vectors as binary "0" and "1". However, the state-of-art antiferromagnetic switching mechanisms have long been limited for 90o or 120o switching of N\'eel vector, which unavoidably require multiple writing channels that contradicts ultra-dense integration. Here, we propose a deterministic switching mechanism based on spin-orbit torque with asymmetric energy barrier, and experimentally achieve electrical 180o switching of spin-splitting antiferromagnet Mn5Si3. Such a 180o switching is read out by the N\'eel vector-induced anomalous Hall effect. Based on our writing and readout methods, we fabricate an antiferromagnet device with electrical-controllable high and low resistance states that accomplishes robust write and read cycles. Besides fundamental advance, our work promotes practical spin-splitting antiferromagnetic devices based on spin-splitting antiferromagnet., Comment: 19 pages, 4 figures

Published

2024

6. Superconductivity in trilayer nickelate La4Ni3O10 under pressure

Author

Zhang, Mingxin, Pei, Cuiying, Du, Xian, Hu, Weixiong, Cao, Yantao, Wang, Qi, Wu, Juefei, Li, Yidian, Liu, Huanyu, Wen, Chenhaoping, Zhao, Yi, Li, Changhua, Cao, Weizheng, Zhu, Shihao, Zhang, Qing, Yu, Na, Cheng, Peihong, Zhang, Lili, Li, Zhiwei, Zhao, Jinkui, Chen, Yulin, Guo, Hanjie, Wu, Congjun, Yang, Fan, Yan, Shichao, Yang, Lexian, and Qi, Yanpeng

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Materials Science

Abstract

Nickelate superconductors have attracted a great deal of attention over the past few decades due to their similar crystal and electronic structures with high-temperature cuprate superconductors. Here, we report the superconductivity in a pressurized Ruddlesden-Popper phase single crystal, La4Ni3O10 (n = 3), and its interplay with the density wave order in the phase diagram. With increasing pressure, the density wave order as indicated by the anomaly in the resistivity is progressively suppressed, followed by the emergence of the superconductivity around 25 K. Our angle-resolved photoemission spectroscopy measurements reveal that the electronic structure of La4Ni3O10 is very similar to that of La3Ni2O7, suggesting unified electronic properties of nickelates in Ruddlesden-Popper phases. Moreover, theoretical analysis unveils that antiferromagnetic (AFM) super-exchange interactions can serve as the effective pairing interaction for the emergence of superconductivity (SC) in pressurized La4Ni3O10. Our research provides a new platform for the investigation of the unconventional superconductivity mechanism in Ruddlesden-Popper trilayer perovskite nickelates., Comment: 21 pages, 4 figures

Published

2023

7. Disassembling one-dimensional chains in molybdenum oxides

Author

Du, Xian, Li, Yidian, Zhao, Wenxuan, Xu, Runzhe, Zhai, Kaiyi, Chen, Yulin, and Yang, Lexian

Subjects

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

Abstract

The dimensionality of quantum materials strongly affects their physical properties. Although many emergent phenomena, such as charge-density wave and Luttinger liquid behavior, are well understood in one-dimensional (1D) systems, the generalization to explore them in higher dimensional systems is still a challenging task. In this study, we aim to bridge this gap by systematically investigating the crystal and electronic structures of molybdenum-oxide family compounds, where the contexture of 1D chains facilitates rich emergent properties. While the quasi-1D chains in these materials share general similarities, such as the motifs made up of MoO6 octahedrons, they exhibit vast complexity and remarkable tunability. We disassemble the 1D chains in molybdenum oxides with different dimensions and construct effective models to excellently fit their low-energy electronic structures obtained by ab initio calculations. Furthermore, we discuss the implications of such chains on other physical properties of the materials and the practical significance of the effective models. Our work establishes the molybdenum oxides as simple and tunable model systems for studying and manipulating the dimensionality in quantum systems., Comment: 25 pages, 5 figures

Published

2023

8. Evolution of the electronic structure of ultrathin MnBi2Te4 Films

Author

Xu, Runzhe, Bai, Yunhe, Zhou, Jingsong, Li, Jiaheng, Gu, Xu, Qin, Na, Yin, Zhongxu, Du, Xian, Zhang, Qinqin, Zhao, Wenxuan, Li, Yidian, Wu, Yang, Ding, Cui, Wang, Lili, Liang, Aiji, Liu, Zhongkai, Xu, Yong, Feng, Xiao, He, Ke, Chen, Yulin, and Yang, Lexian

Subjects

Condensed Matter - Materials Science

Abstract

Ultrathin films of intrinsic magnetic topological insulator MnBi2Te4 exhibit fascinating quantum properties such as quantum anomalous Hall effect and axion insulator state. In this work, we systematically investigate the evolution of the electronic structure of MnBi2Te4 thin films. With increasing film thickness, the electronic structure changes from an insulator-type with a large energy gap to one with in-gap topological surface states, which is, however, still drastically different from the bulk material. By surface doping of alkali-metal atoms, a Rashba split band gradually emerges and hybridizes with topological surface states, which not only reconciles the puzzling difference between the electronic structures of the bulk and thin film MnBi2Te4 but also provides an interesting platform to establish Rashba ferromagnet that is attractive for (quantum) anomalous Hall effect. Our results provide important insights into the understanding and engineering of the intriguing quantum properties of MnBi2Te4 thin films., Comment: Online published in Nano Letters

Published

2022

9. Persistent exchange splitting in a chiral helimagnet Cr1/3NbS2

Author

Qin, Na, Chen, Cheng, Du, Shiqiao, Du, Xian, Zhang, Xin, Yin, Zhongxu, Zhou, Jingsong, Xu, Runzhe, Gu, Xu, Zhang, Qinqin, Zhao, Wenxuan, Li, Yidian, Mo, Sung-Kwan, Liu, Zhongkai, Zhang, Shilei, Guo, Yanfeng, Tang, P. Z., Chen, Yulin, and Yang, Lexian

Subjects

Condensed Matter - Materials Science

Abstract

Using high-resolution angle-resolved photoemission spectroscopy (ARPES) and ab-initio calculation, we systematically investigate the electronic structure of the chiral helimagnet Cr1/3NbS2 and its temperature evolution. The comparison with NbS2 suggests that the electronic structure of Cr1/3NbS2 is strongly modified by the intercalation of Cr atoms. Our ab-initio calculation, consistent with experimental result, suggests strong hybridization between Nb- and Cr-derived states near the Fermi level. In the chiral helimagnetic state (below the Curie temperature Tc), we observe exchange splitting of the energy bands crossing EF, which follows the temperature evolution of the magnetic moment, suggesting an important role of the conduction electrons in the long-range magnetic ordering. Interestingly, the exchange splitting persists far above Tc with negligible temperature dependence, in drastic contrast to the itinerant ferromagnetism described by the Stoner model, indicating the existence of short-range magnetic order. Our results provide important insights into the microscopic mechanism of the chiral helimagnetic ordering in Cr1/3NbS2.

Published

2022

10. Light-induced dimension crossover in 1T-TiSe$_2$ dictated by excitonic correlations

Author

Cheng, Yun, Zong, Alfred, Li, Jun, Xia, Wei, Duan, Shaofeng, Zhao, Wenxuan, Li, Yidian, Qi, Fengfeng, Wu, Jun, Zhao, Lingrong, Zhu, Pengfei, Zou, Xiao, Jiang, Tao, Guo, Yanfeng, Yang, Lexian, Qian, Dong, Zhang, Wentao, Kogar, Anshul, Zuerch, Michael W., Xiang, Dao, and Zhang, Jie

Subjects

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

Abstract

In low-dimensional systems with strong electronic correlations, the application of an ultrashort laser pulse often yields novel phases that are otherwise inaccessible. The central challenge in understanding such phenomena is to determine how dimensionality and many-body correlations together govern the pathway of a non-adiabatic transition. To this end, we examine a layered compound, 1T-TiSe$_2$, whose three-dimensional charge-density-wave (3D CDW) state also features exciton condensation due to strong electron-hole interactions. We find that photoexcitation suppresses the equilibrium 3D CDW while creating a nonequilibrium 2D CDW. Remarkably, the dimension reduction does not occur unless bound electron-hole pairs are broken. This relation suggests that excitonic correlations maintain the out-of-plane CDW coherence, settling a long-standing debate over their role in the CDW transition. Our findings demonstrate how optical manipulation of electronic interaction enables one to control the dimensionality of a broken-symmetry order, paving the way for realizing other emergent states in strongly correlated systems.

Published

2022

11. Persistent exchange splitting in the chiral helimagnet Cr1/3NbS2

Author

Qin, Na, Chen, Cheng, Du, Shiqiao, Du, Xian, Zhang, Xin, Yin, Zhongxu, Zhou, Jingsong, Xu, Runzhe, Gu, Xu, Zhang, Qinqin, Zhao, Wenxuan, Li, Yidian, Mo, Sung-Kwan, Liu, Zhongkai, Zhang, Shilei, Guo, Yanfeng, Tang, Peizhe, Chen, Yulin, and Yang, Lexian

Subjects

Physical Sciences, Condensed Matter Physics, Chemical sciences, Engineering, Physical sciences

Abstract

Using high-resolution angle-resolved photoemission spectroscopy and ab initio calculation, we systematically investigate the electronic structure of the chiral helimagnet Cr1/3NbS2 and its temperature evolution. The comparison with NbS2 suggests that the electronic structure of Cr1/3NbS2 is strongly modified by the intercalation of Cr atoms. Our ab initio calculation, consistent with experimental results, suggests strong hybridization between Nb- and Cr-derived states near the Fermi level. In the chiral helimagnetic state (below the Curie temperature, Tc), we observe exchange splitting of the energy bands crossing the Fermi level, which follows the temperature evolution of the magnetic moment, suggesting a strong interaction between the conduction electrons and Cr spin moments. Interestingly, the exchange splitting persists far above Tc with weak temperature dependence, in drastic contrast to the itinerant ferromagnetism described by the Stoner model, indicating the existence of short-range magnetic order. Our results provide important insights into the interplay between the electronic structure and magnetism in Cr1/3NbS2, which is helpful for understanding the microscopic mechanism of chiral helimagnetic ordering.

Published

2022

12. Topological electronic structure and spin texture of quasi-one-dimensional higher-order topological insulator Bi4Br4

Author

Zhao, Wenxuan, Yang, Ming, Xu, Runzhe, Du, Xian, Li, Yidian, Zhai, Kaiyi, Peng, Cheng, Pei, Ding, Gao, Han, Li, Yiwei, Xu, Lixuan, Han, Junfeng, Huang, Yuan, Liu, Zhongkai, Yao, Yugui, Zhuang, Jincheng, Du, Yi, Zhou, Jinjian, Chen, Yulin, and Yang, Lexian

Published

2023

13. Light-induced dimension crossover dictated by excitonic correlations

Author

Cheng, Yun, Zong, Alfred, Li, Jun, Xia, Wei, Duan, Shaofeng, Zhao, Wenxuan, Li, Yidian, Qi, Fengfeng, Wu, Jun, Zhao, Lingrong, Zhu, Pengfei, Zou, Xiao, Jiang, Tao, Guo, Yanfeng, Yang, Lexian, Qian, Dong, Zhang, Wentao, Kogar, Anshul, Zuerch, Michael W, Xiang, Dao, and Zhang, Jie

Abstract

In low-dimensional systems with strong electronic correlations, the application of an ultrashort laser pulse often yields novel phases that are otherwise inaccessible. The central challenge in understanding such phenomena is to determine how dimensionality and many-body correlations together govern the pathway of a non-adiabatic transition. To this end, we examine a layered compound, 1T-TiSe2, whose three-dimensional charge-density-wave (3D CDW) state also features exciton condensation due to strong electron-hole interactions. We find that photoexcitation suppresses the equilibrium 3D CDW while creating a nonequilibrium 2D CDW. Remarkably, the dimension reduction does not occur unless bound electron-hole pairs are broken. This relation suggests that excitonic correlations maintain the out-of-plane CDW coherence, settling a long-standing debate over their role in the CDW transition. Our findings demonstrate how optical manipulation of electronic interaction enables one to control the dimensionality of a broken-symmetry order, paving the way for realizing other emergent states in strongly correlated systems.

Published

2022

14. Distinct ultrafast dynamics of bilayer and trilayer nickelate superconductors regarding the density-wave-like transitions

Author

Li, Yidian, Cao, Yantao, Liu, Liangyang, Peng, Pai, Lin, Hao, Pei, Cuiying, Zhang, Mingxin, Wu, Heng, Du, Xian, Zhao, Wenxuan, Zhai, Kaiyi, Zhang, Xuefeng, Zhao, Jinkui, Lin, Miaoling, Tan, Pingheng, Qi, Yanpeng, Li, Gang, Guo, Hanjie, Yang, Luyi, and Yang, Lexian

Published

2024

15. An adaptive variational mode decomposition for wind power prediction using convolutional block attention deep learning network

Author

Meng, Anbo, Xie, Zhifeng, Luo, Jianqiang, Zeng, Ying, Xu, Xuancong, Li, Yidian, Wu, Zhenbo, Zhang, Zhan, Zhu, Jianbin, Xian, Zikang, Li, Chen, Yan, Baiping, and Yin, Hao

Published

2023

16. Research on dynamic characteristics of vertical axis wind turbine extended to the outside of buildings

Author

Li, Gang, Li, Yidian, Li, Jia, Huang, Huilan, and Huang, Liyan

Published

2023

17. Quantum-Confined Tunable Ferromagnetism on the Surface of a Van der Waals Antiferromagnet NaCrTe2.

Author

Li, Yidian, Du, Xian, Wang, Junjie, Xu, Runzhe, Zhao, Wenxuan, Zhai, Kaiyi, Liu, Jieyi, Chen, Houke, Yang, Yiheng, Plumb, Nicholas C., Ju, Sailong, Shi, Ming, Liu, Zhongkai, Guo, Jian-gang, Chen, Xiaolong, Chen, Yulin, and Yang, Lexian

Published

2024

18. Electronic Correlation and Pseudogap-Like Behavior of High-Temperature Superconductor La3Ni2O7.

Author

Li, Yidian, 李, 义典, Du, Xian, Cao, Yantao, Pei, Cuiying, Zhang, Mingxin, Zhao, Wenxuan, Zhai, Kaiyi, Xu, Runzhe, Liu, Zhongkai, Li, Zhiwei, Zhao, Jinkui, Li, Gang, Qi, Yanpeng, Guo, Hanjie, Chen, Yulin, and Yang, Lexian

Subjects

*CONDENSED matter physics, *AB-initio calculations, *ELECTRON configuration, *PHOTOELECTRON spectroscopy, *HIGH temperature superconductors, *PHOTOEMISSION

Abstract

High-temperature superconductivity (HTSC) remains one of the most challenging and fascinating mysteries in condensed matter physics. Recently, superconductivity with transition temperature exceeding liquid-nitrogen temperature is discovered in La3Ni2O7 at high pressure, which provides a new platform to explore the unconventional HTSC. In this work, using high-resolution angle-resolved photoemission spectroscopy and ab initio calculation, we systematically investigate the electronic structures of La3Ni2O7 at ambient pressure. Our experiments are in nice agreement with ab initio calculations after considering an orbital-dependent band renormalization effect. The strong electron correlation effect pushes a flat band of d z 2 orbital component below the Fermi level (E F), which is predicted to locate right at E F under high pressure. Moreover, the d x 2– y 2 band shows pseudogap-like behavior with suppressed spectral weight and diminished quasiparticle peak near E F. Our findings provide important insights into the electronic structure of La3Ni2O7, which will shed light on understanding of the unconventional superconductivity in nickelates. [ABSTRACT FROM AUTHOR]

Published

2024

19. Electronic Correlation and Pseudogap-Like Behavior of High-Temperature Superconductor La3Ni2O7.

Author

Li, Yidian, 李, 义典, Du, Xian, Cao, Yantao, Pei, Cuiying, Zhang, Mingxin, Zhao, Wenxuan, Zhai, Kaiyi, Xu, Runzhe, Liu, Zhongkai, Li, Zhiwei, Zhao, Jinkui, Li, Gang, Qi, Yanpeng, Guo, Hanjie, Chen, Yulin, and Yang, Lexian

Subjects

CONDENSED matter physics, AB-initio calculations, ELECTRON configuration, PHOTOELECTRON spectroscopy, HIGH temperature superconductors, PHOTOEMISSION

Abstract

High-temperature superconductivity (HTSC) remains one of the most challenging and fascinating mysteries in condensed matter physics. Recently, superconductivity with transition temperature exceeding liquid-nitrogen temperature is discovered in La3Ni2O7 at high pressure, which provides a new platform to explore the unconventional HTSC. In this work, using high-resolution angle-resolved photoemission spectroscopy and ab initio calculation, we systematically investigate the electronic structures of La3Ni2O7 at ambient pressure. Our experiments are in nice agreement with ab initio calculations after considering an orbital-dependent band renormalization effect. The strong electron correlation effect pushes a flat band of d z 2 orbital component below the Fermi level (E F), which is predicted to locate right at E F under high pressure. Moreover, the d x 2– y 2 band shows pseudogap-like behavior with suppressed spectral weight and diminished quasiparticle peak near E F. Our findings provide important insights into the electronic structure of La3Ni2O7, which will shed light on understanding of the unconventional superconductivity in nickelates. [ABSTRACT FROM AUTHOR]

Published

2024

20. Electrical 180° switching of Néel vector in spin-splitting antiferromagnet

Author

Han, Lei, primary, Fu, Xizhi, additional, Peng, Rui, additional, Cheng, Xingkai, additional, Dai, Jiankun, additional, Liu, Liangyang, additional, Li, Yidian, additional, Zhang, Yichi, additional, Zhu, Wenxuan, additional, Bai, Hua, additional, Zhou, Yongjian, additional, Liang, Shixuan, additional, Chen, Chong, additional, Wang, Qian, additional, Chen, Xianzhe, additional, Yang, Luyi, additional, Zhang, Yang, additional, Song, Cheng, additional, Liu, Junwei, additional, and Pan, Feng, additional

Published

2024

21. Topological electronic structure and spin texture of quasi-one-dimensional higher-order topological insulator Bi4Br4.

Author

Zhao, Wenxuan, Yang, Ming, Xu, Runzhe, Du, Xian, Li, Yidian, Zhai, Kaiyi, Peng, Cheng, Pei, Ding, Gao, Han, Li, Yiwei, Xu, Lixuan, Han, Junfeng, Huang, Yuan, Liu, Zhongkai, Yao, Yugui, Zhuang, Jincheng, Du, Yi, Zhou, Jinjian, Chen, Yulin, and Yang, Lexian

Subjects

TOPOLOGICAL insulators, ELECTRONIC structure, PHOTOELECTRON spectroscopy, AB-initio calculations, CONDUCTION bands

Abstract

The notion of topological insulators (TIs), characterized by an insulating bulk and conducting topological surface states, can be extended to higher-order topological insulators (HOTIs) hosting gapless modes localized at the boundaries of two or more dimensions lower than the insulating bulk. In this work, by performing high-resolution angle-resolved photoemission spectroscopy (ARPES) measurements with submicron spatial and spin resolution, we systematically investigate the electronic structure and spin texture of quasi-one-dimensional (1D) HOTI candidate Bi4Br4. In contrast to the bulk-state-dominant spectra on the (001) surface, we observe gapped surface states on the (100) surface, whose dispersion and spin-polarization agree well with our ab-initio calculations. Moreover, we reveal in-gap states connecting the surface valence and conduction bands, which is a signature of the hinge states inside the (100) surface gap. Our findings provide compelling evidence for the HOTI phase of Bi4Br4. The identification of the higher-order topological phase promises applications based on 1D spin-momentum locked current in electronic and spintronic devices. W. X. Zhao et al. study the higher-order topological insulator candidate Bi4Br4 by angle-resolved photoemission spectroscopy (ARPES) and ab-initio calculation. They provide strong evidence for the higher-order topological insulator phase, including a signature of the hinge states inside the (100) surface gap. [ABSTRACT FROM AUTHOR]

Published

2023

22. 高性能时间分辨角分辨光电子能谱在量子材料中研究进展

Author

Duan, Shaofeng, primary, Li, Yidian, additional, Yang, Lexian, additional, and Zhang, Wentao, additional

Published

2022

23. Evolution of the Electronic Structure of Ultrathin MnBi2Te4 Films

Author

Xu, Runzhe, primary, Bai, Yunhe, additional, Zhou, Jingsong, additional, Li, Jiaheng, additional, Gu, Xu, additional, Qin, Na, additional, Yin, Zhongxu, additional, Du, Xian, additional, Zhang, Qinqin, additional, Zhao, Wenxuan, additional, Li, Yidian, additional, Wu, Yang, additional, Ding, Cui, additional, Wang, Lili, additional, Liang, Aiji, additional, Liu, Zhongkai, additional, Xu, Yong, additional, Feng, Xiao, additional, He, Ke, additional, Chen, Yulin, additional, and Yang, Lexian, additional

Published

2022

24. Electronic structure and spin–orbit coupling in ternary transition metal chalcogenides Cu2TlX 2 (X = Se, Te)

Author

Qin, Na, primary, Du, Xian, additional, Lv, Yangyang, additional, Kang, Lu, additional, Yin, Zhongxu, additional, Zhou, Jingsong, additional, Gu, Xu, additional, Zhang, Qinqin, additional, Xu, Runzhe, additional, Zhao, Wenxuan, additional, Li, Yidian, additional, Yao, Shuhua, additional, Chen, Yanfeng, additional, Liu, Zhongkai, additional, Yang, Lexian, additional, and Chen, Yulin, additional

Published

2022

25. Photoinduced Dimension Crossover in 1T-TiSe2

Author

Zong, Alfred, primary, Cheng, Yun, additional, Li, Jun, additional, Xia, Wei, additional, Duan, Shaofeng, additional, Zhao, Wenxuan, additional, Li, Yidian, additional, Qi, Fengfeng, additional, Wu, Jun, additional, Zhao, Lingrong, additional, Zhu, Pengfei, additional, Zou, Xiao, additional, Jiang, Tao, additional, Guo, Yanfeng, additional, Yang, Lexian, additional, Qian, Dong, additional, Zhang, Wentao, additional, Kogar, Anshul, additional, Zuerch, Michael W., additional, Xiang, Dao, additional, and Zhang, Jie, additional

Published

2022

26. Evolution of the Electronic Structure of Ultrathin MnBi2Te4 Films.

Author

Xu, Runzhe, Bai, Yunhe, Zhou, Jingsong, Li, Jiaheng, Gu, Xu, Qin, Na, Yin, Zhongxu, Du, Xian, Zhang, Qinqin, Zhao, Wenxuan, Li, Yidian, Wu, Yang, Ding, Cui, Wang, Lili, Liang, Aiji, Liu, Zhongkai, Xu, Yong, Feng, Xiao, He, Ke, and Chen, Yulin

Published

2022