Your search keyword '"Cheng, Shufan"' showing total 25 results

1. Absence of altermagnetic spin splitting character in rutile oxide RuO$_2$

Author

Liu, Jiayu, Zhan, Jie, Li, Tongrui, Liu, Jishan, Cheng, Shufan, Shi, Yuming, Deng, Liwei, Zhang, Meng, Li, Chihao, Ding, Jianyang, Jiang, Qi, Ye, Mao, Liu, Zhengtai, Jiang, Zhicheng, Wang, Siyu, Li, Qian, Xie, Yanwu, Wang, Yilin, Qiao, Shan, Wen, Jinsheng, Sun, Yan, and Shen, Dawei

Subjects

Condensed Matter - Materials Science

Abstract

Rutile RuO$_2$ has been posited as a potential $d$-wave altermagnetism candidate, with a predicted significant spin splitting up to 1.4 eV. Despite accumulating theoretical predictions and transport measurements, direct spectroscopic observation of spin splitting has remained elusive. Here, we employ spin- and angle-resolved photoemission spectroscopy to investigate the band structures and spin polarization of thin-film and single-crystal RuO$_2$. Contrary to expectations of altermagnetism, our analysis indicates that RuO$_2$'s electronic structure aligns with those predicted under non-magnetic conditions, exhibiting no evidence of the hypothesized spin splitting. Additionally, we observe significant in-plane spin polarization of the low-lying bulk bands, which is antisymmetric about the high-symmetry plane and contrary to the $d$-wave spin texture due to time-reversal symmetry breaking in altermagnetism. These findings definitively challenge the altermagnetic order previously proposed for rutile RuO$_2$, prompting a reevaluation of its magnetic properties., Comment: 7 pages, 4 figures. Published in Physical Review Letters

Published

2024

2. Spin and lattice dynamics of a van der Waals antiferromagnet MnPSe$_3$

Author

Liao, Junbo, Huang, Zhentao, Shangguan, Yanyan, Zhang, Bo, Cheng, Shufan, Xu, Hao, Kajimoto, Ryoichi, Kamazawa, Kazuya, Bao, Song, and Wen, Jinsheng

Subjects

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

Abstract

Antiferromagnetic van der Waals family $\rm \textit{M}P\textit{X}_{3}\ (M=Fe,\ Mn,\ Co,\text{ and}\ Ni; X=S\text{ and}\ Se)$ have attracted significant research attention due to the possibility of realizing long-range magnetic order down to the monolayer limit. Here, we perform inelastic neutron scattering measurements on single crystal samples of MnPSe$_3$, a member of the $\rm \textit{M}P\textit{X}_{3}$ family, to study the spin dynamics and determine the effective spin model. The excited magnon bands are well characterized by a spin model, which includes a Heisenberg term with three intraplane exchange parameters ($J_{1}=-0.73$~meV, $J_{2}=-0.014$~meV, $J_{3}=-0.43$~meV) and one interplane parameter ($J_{c}=-0.054$~meV), and an easy-plane single-ion anisotropy term ($D=-0.035$~meV). Additionally, we observe the intersection of the magnon and phonon bands but no anomalous spectral features induced by the formation of magnon-phonon hybrid excitations at the intersecting region. We discuss possible reasons for the absence of such hybrid excitations in MnPSe$_3$., Comment: 11 pages, 5 figures

Published

2024

3. Observation of Magnon Damping Minimum Induced by Kondo Coupling in a van der Waals Ferromagnet Fe$_{3-x}$GeTe$_{2}$

Author

Bao, Song, Wang, Junsen, Yano, Shin-ichiro, Shangguan, Yanyan, Huang, Zhentao, Liao, Junbo, Wang, Wei, Gao, Yuan, Zhang, Bo, Cheng, Shufan, Xu, Hao, Dong, Zhao-Yang, Yu, Shun-Li, Li, Wei, Li, Jian-Xin, and Wen, Jinsheng

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity

Abstract

In heavy-fermion systems with $f$ electrons, there is an intricate interplay between Kondo screening and magnetic correlations, which can give rise to various exotic phases. Recently, similar interplay appears to also occur in $d$-electron systems, but the underlying mechanism remains elusive. Here, using inelastic neutron scattering, we investigate the temperature evolution of the low-energy spin waves in a metallic van der Waals ferromagnet Fe$_{3-x}$GeTe$_{2}$ (Curie temperature $T_{\rm C}\sim160$ K), where the Kondo-lattice behavior emerges in the ferromagnetic phase below a characteristic temperature $T^*\sim90$ K. We observe that the magnon damping constant diverges at both low and high temperatures, exhibiting a minimum coincidentally around $T^*$. Such an observation is analogous to the resistivity minimum as due to the single-impurity Kondo effect. This unusual behavior is described by a formula that combines logarithmic and power terms, representing the dominant contributions from Kondo screening and thermal fluctuations, respectively. Furthermore, we find that the magnon damping increases with momentum below $T_{\rm C}$. These findings can be explained by considering spin-flip electron-magnon scattering, which serves as a magnonic analog of the Kondo-impurity scattering, and thus provides a measure of the Kondo coupling through magnons. Our results provide critical insights into how Kondo coupling manifests itself in a system with magnetic ordering and shed light on the coexistence of and interplay between magnetic order and Kondo effect in itinerant 3$d$-electron systems., Comment: 8 pages, 4 figures

Published

2023

4. Observation of a 1/3 Magnetisation Plateau Phase as Evidence for the Kitaev Interaction in a Honeycomb-Lattice Antiferromagnet

Author

Shangguan, Yanyan, Bao, Song, Dong, Zhao-Yang, Xi, Ning, Gao, Yi-Peng, Ma, Zhen, Wang, Wei, Qi, Zhongyuan, Zhang, Shuai, Huang, Zhentao, Liao, Junbo, Zhao, Xiaoxue, Zhang, Bo, Cheng, Shufan, Xu, Hao, Yu, Dehong, Mole, Richard A., Murai, Naoki, Ohira-Kawamura, Seiko, He, Lunhua, Hao, Jiazheng, Yan, Qing-Bo, Song, Fengqi, Li, Wei, Yu, Shun-Li, Li, Jian-Xin, and Wen, Jinsheng

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity

Abstract

Fractional magnetisation plateaus, in which the magnetisation is pinned at a fraction of its saturated value within a range of external magnetic field, are spectacular macroscopic manifestations of the collective quantum behaviours. One prominent example of the plateau phase is found in spin-1/2 triangular-lattice antiferromagnets featuring strong geometrical frustration, and is often interpreted as quantum-fluctuation-stabilised state in magnetic field via the "order-by-disorder" mechanism. Here, we observe an unprecedented 1/3 magnetisation plateau between 5.2 and 7.4 T at 2 K in a spin-1 antiferromagnet Na$_3$Ni$_2$BiO$_6$ with a honeycomb lattice, where conventionally no geometrical frustration is anticipated. By carrying out elastic neutron scattering measurements, we propose the spin structure of the plateau phase to be an unusual partial spin-flop ferrimagnetic order, transitioning from the zigzag antiferromagnetic order in zero field. Our theoretical calculations show that the plateau phase is stabilised by the bond-anisotropic Kitaev interaction. These results provide a new paradigm for the exploration of rich quantum phases in frustrated magnets and exotic Kitaev physics in high-spin systems., Comment: Submitted version, 10 pages, 5 figures. Final version has been published in Nature Physics

Published

2023

5. A one-third magnetization plateau phase as evidence for the Kitaev interaction in a honeycomb-lattice antiferromagnet

Author

Shangguan, Yanyan, Bao, Song, Dong, Zhao-Yang, Xi, Ning, Gao, Yi-Peng, Ma, Zhen, Wang, Wei, Qi, Zhongyuan, Zhang, Shuai, Huang, Zhentao, Liao, Junbo, Zhao, Xiaoxue, Zhang, Bo, Cheng, Shufan, Xu, Hao, Yu, Dehong, Mole, Richard A., Murai, Naoki, Ohira-Kawamura, Seiko, He, Lunhua, Hao, Jiazheng, Yan, Qing-Bo, Song, Fengqi, Li, Wei, Yu, Shun-Li, Li, Jian-Xin, and Wen, Jinsheng

Published

2023

6. Neutron spectroscopy evidence for a possible magnetic-field-induced gapless quantum-spin-liquid phase in a Kitaev material $\alpha$-RuCl$_3$

Author

Zhao, Xiaoxue, Ran, Kejing, Wang, Jinghui, Bao, Song, Shangguan, Yanyan, Huang, Zhentao, Liao, Junbo, Zhang, Bo, Cheng, Shufan, Xu, Hao, Wang, Wei, Dong, Zhao-Yang, Meng, Siqin, Lu, Zhilun, Yano, Shin-ichiro, Yu, Shun-Li, Li, Jian-Xin, and Wen, Jinsheng

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity

Abstract

As one of the most promising Kitaev quantum-spin-liquid (QSL) candidates, $\alpha$-RuCl$_3$ has received a great amount of attention. However, its ground state exhibits a long-range zigzag magnetic order, which defies the QSL phase. Nevertheless, the magnetic order is fragile and can be completely suppressed by applying an external magnetic field. Here, we explore the evolution of magnetic excitations of $\alpha$-RuCl$_3$ under an in-plane magnetic field, by carrying out inelastic neutron scattering measurements on high-quality single crystals. Under zero field, there exist spin-wave excitations near the $M$ point and a continuum near the $\mit\Gamma$ point, which are believed to be associated with the zigzag magnetic order and fractional excitations of the Kitaev QSL state, respectively. By increasing the magnetic field, the spin-wave excitations gradually give way to the continuous excitations. On the verge of the critical field $\mu_0H_{\rm c}=7.5$ T, the former vanish and only the latter is left, indicating the emergence of a pure QSL state. By further increasing the field strength, the excitations near the $\mit\Gamma$ point become more intense. By following the gap evolution of the excitations near the $\mit\Gamma$ point, we are able to establish a phase diagram composed of three interesting phases, including a gapped zigzag order phase at low fields, possibly-gapless QSL phase near $\mu_0H_{\rm c}$, and gapped partially polarized phase at high fields. These results demonstrate that an in-plane magnetic field can drive $\alpha$-RuCl$_3$ into a long-sought QSL state near the critical field., Comment: 9 pages, 4 figures

Published

2022

7. Author Correction: A one-third magnetization plateau phase as evidence for the Kitaev interaction in a honeycomb-lattice antiferromagnet

Author

Shangguan, Yanyan, Bao, Song, Dong, Zhao-Yang, Xi, Ning, Gao, Yi-Peng, Ma, Zhen, Wang, Wei, Qi, Zhongyuan, Zhang, Shuai, Huang, Zhentao, Liao, Junbo, Zhao, Xiaoxue, Zhang, Bo, Cheng, Shufan, Xu, Hao, Yu, Dehong, Mole, Richard A., Murai, Naoki, Ohira-Kawamura, Seiko, He, Lunhua, Hao, Jiazheng, Yan, Qing-Bo, Song, Fengqi, Li, Wei, Yu, Shun-Li, Li, Jian-Xin, and Wen, Jinsheng

Published

2023

8. Spin and lattice dynamics in the van der Waals antiferromagnet MnPSe3

Author

Liao, Junbo, primary, Huang, Zhentao, additional, Shangguan, Yanyan, additional, Zhang, Bo, additional, Cheng, Shufan, additional, Xu, Hao, additional, Kajimoto, Ryoichi, additional, Kamazawa, Kazuya, additional, Bao, Song, additional, and Wen, Jinsheng, additional

Published

2024

9. Numerical investigation of rock sphere breakage upon oblique impact: effect of the contact friction coefficient and impact angle

Author

Ye, Yang, Zeng, Yawu, Cheng, Shufan, Sun, Hanqing, and Chen, Xi

Published

2021

10. An experimental and theoretical study of the cyclic contact behaviour for rock sphere

Author

Ye, Yang, Zeng, Yawu, Sun, Hanqing, Chen, Xi, Cheng, Shufan, and Ma, Wenjun

Published

2021

11. Experimental Study on Mechanical Properties of Coal Rock Under Impact Load

Author

ZHANG Jiafan, GAO Zhuang, CHENG Shufan, ZHANG Huimei

Subjects

coal rock, dynamic mechanical properties, strain rate, shpb, destruction form, impact load, Mining engineering. Metallurgy, TN1-997

Abstract

In order to study the dynamic mechanical properties of hard coal and rock in northern Shaanxi Province, the basic dynamic and static tests of coal and rock specimens were carried out by using stress loading system and split Hopkinson pressure bar (SHPB) test device, and the failure mechanism was studied. The results show that under static load, most of the coal and rock specimens are damaged by single crack, while under dynamic load, the failure forms are relatively rich, such as splitting failure at low strain rate and crushing failure at high strain rate. The correlation between elastic modulus and strain rate of peak stress is significant, but the correlation between peak strain rate is weak. Under dynamic loading mode, the closure time of defects such as voids, cracks and particle spacing is too short due to the fast loading speed, which shows that the stress-strain curve is missing on the macro level.

Published

2020

12. Identification of interfacial influence zone (IIZ) in clay rock-cement mortar binary based on the macro-pore distribution in space: An NMR and CT investigation

Author

Chen, Shiguan, Zhang, Huimei, Cheng, Shufan, Wang, Lei, Yuan, Chao, and Li, Zengle

Published

2024

13. Numerical investigation on the debonding of cement anchorage in clay rocks based on a hybrid FEM/DEM model

Author

Cheng, Shufan, primary, Ye, Yang, additional, Zeng, Yawu, additional, Gao, Rui, additional, and Qin, Xiangrui, additional

Published

2023

14. Experimental investigation on the expansive characteristics of Gansu clay-sulfate rocks in China subjected to confined compression and cyclic drying-wetting

Author

Cheng, Shufan, primary, Zeng, Yawu, additional, Ye, Yang, additional, and Gao, Rui, additional

Published

2022

15. Neutron Spectroscopy Evidence for a Possible Magnetic-Field-Induced Gapless Quantum-Spin-Liquid Phase in a Kitaev Material α-RuCl3

Author

Zhao, Xiaoxue, Ran, Kejing, Wang, Jinghui, Bao, Song, Shangguan, Yanyan, Huang, Zhentao, Liao, Junbo, Zhang, Bo, Cheng, Shufan, Xu, Hao, Wang, Wei, Dong, Zhao-Yang, Meng, Siqin, Lu, Zhilun, Yano, Shin-ichiro, Yu, Shun-Li, Li, Jian-Xin, and Wen, Jinsheng

Subjects

Superconductivity (cond-mat.supr-con), Strongly Correlated Electrons (cond-mat.str-el), FOS: Physical sciences

Abstract

As one of the most promising Kitaev quantum-spin-liquid (QSL) candidates, $α$-RuCl$_3$ has received a great amount of attention. However, its ground state exhibits a long-range zigzag magnetic order, which defies the QSL phase. Nevertheless, the magnetic order is fragile and can be completely suppressed by applying an external magnetic field. Here, we explore the evolution of magnetic excitations of $α$-RuCl$_3$ under an in-plane magnetic field, by carrying out inelastic neutron scattering measurements on high-quality single crystals. Under zero field, there exist spin-wave excitations near the $M$ point and a continuum near the $\mitΓ$ point, which are believed to be associated with the zigzag magnetic order and fractional excitations of the Kitaev QSL state, respectively. By increasing the magnetic field, the spin-wave excitations gradually give way to the continuous excitations. On the verge of the critical field $μ_0H_{\rm c}=7.5$ T, the former vanish and only the latter is left, indicating the emergence of a pure QSL state. By further increasing the field strength, the excitations near the $\mitΓ$ point become more intense. By following the gap evolution of the excitations near the $\mitΓ$ point, we are able to establish a phase diagram composed of three interesting phases, including a gapped zigzag order phase at low fields, possibly-gapless QSL phase near $μ_0H_{\rm c}$, and gapped partially polarized phase at high fields. These results demonstrate that an in-plane magnetic field can drive $α$-RuCl$_3$ into a long-sought QSL state near the critical field., 9 pages, 4 figures

Published

2022

16. Three‐dimensional DEM simulation of the nonlinear crack closure behaviour of rocks

Author

Ye, Yang, primary, Zeng, Yawu, additional, Cheng, Shufan, additional, Chen, Xi, additional, and Sun, Hanqing, additional

Published

2022

17. A Macro–Micro Damage Model for Rock under Compression Loading

Author

Peng, Zhixiong, primary, Zeng, Yawu, additional, Chen, Xi, additional, and Cheng, Shufan, additional

Published

2021

18. Study on Emergency Surgical Scheduling with Fatigue Effect and Learning Effect.

Author

CHENG Shufan and YE Chunming

Subjects

SURGICAL emergencies, FLOW shop scheduling, SCHEDULING, MEDICAL personnel, MATHEMATICAL optimization

Abstract

From the perspective of the surgical scheduling problem in emergency, this paper considers the fatigue effect and the truncated learning effect caused by medical staffs' long-time work, regards the surgical scheduling problem as the hybrid flow-shop scheduling problem and proposes a three-stage surgical scheduling model which includes preoperative, intraoperative and postoperative. The improved grey wolf optimization is used to solve the emergency surgical scheduling model, and the effectiveness of the model and the algorithm are tested through simulation experiments. The results show that the improved grey wolf optimization algorithm can solve the emergency surgical scheduling model more effectively and get better scheduling results. [ABSTRACT FROM AUTHOR]

Published

2022

19. Neutron Spectroscopy Evidence for a Possible Magnetic-Field-Induced Gapless Quantum-Spin-Liquid Phase in a Kitaev Material α -RuCl3.

Author

Zhao, Xiaoxue, Ran, Kejing, Wang, Jinghui, Bao, Song, Shangguan, Yanyan, Huang, Zhentao, Liao, Junbo, Zhang, Bo, Cheng, Shufan, Xu, Hao, Wang, Wei, Dong, Zhao-Yang, Meng, Siqin, Lu, Zhilun, Yano, Shin-ichiro, Yu, Shun-Li, Li, Jian-Xin, and Wen, Jinsheng

Subjects

NEUTRON spectroscopy, INELASTIC neutron scattering, NEUTRON measurement, MAGNETIC fields, SINGLE crystals, NEUTRONS

Abstract

As one of the most promising Kitaev quantum-spin-liquid (QSL) candidates, α -RuCl3 has received a great deal of attention. However, its ground state exhibits a long-range zigzag magnetic order, which defies the QSL phase. Nevertheless, the magnetic order is fragile and can be completely suppressed by applying an external magnetic field. Here, we explore the evolution of magnetic excitations of α -RuCl3 under an in-plane magnetic field, by carrying out inelastic neutron scattering measurements on high-quality single crystals. Under zero field, there exist spin-wave excitations near the M point and a continuum near the Î" point, which are believed to be associated with the zigzag magnetic order and fractional excitations of the Kitaev QSL state, respectively. By increasing the magnetic field, the spin-wave excitations gradually give way to the continuous excitations. On the verge of the critical field ÎĽ 0 H c = 7.5 T, the former ones vanish and only the latter ones are left, indicating the emergence of a pure QSL state. By further increasing the field strength, the excitations near the Î" point become more intense. By following the gap evolution of the excitations near the Î" point, we are able to establish a phase diagram composed of three interesting phases, including a gapped zigzag order phase at low fields, possibly gapless QSL phase near ÎĽ 0 H c, and gapped partially polarized phase at high fields. These results demonstrate that an in-plane magnetic field can drive α -RuCl3 into a long-sought QSL state near the critical field. [ABSTRACT FROM AUTHOR]

Published

2022

20. Temperature dependence of ferromagnetic resonance as induced by NiO pinning layers

Author

Lubitz, P., Krebs, J.J., Miller, M.M., and Cheng, Shufan

Subjects

Ferromagnetism -- Observations, Thin films -- Magnetic properties, Physics

Abstract

Ferromagnetic resonance (FMR) studies have been undertaken near 9.5 GHz on permalloy (Py) thin films. The giant magnetoresistance structures use antiferromagnetic NiO to achieve pinning of a magnetic layer. Magnetic anisotropies were observed for their resonances for fields perpendicular to and in the sample plane. Strong temperature dependencies of the isotropic shift may mean the presence of different spin pinning subsystems.

Published

1998

21. High-resolution waveguide terahertz spectroscopy of partially oriented organic polycrystalline films

Author

Melinger, Joseph S., Laman, N., Harsha, S. Sree, Cheng, Shufan, and Grischkowsky, D.

Subjects

Polycrystalline semiconductors -- Structure, Polycrystalline semiconductors -- Optical properties, Polycrystalline semiconductors -- Spectra, Vibrational spectra -- Analysis, X-rays -- Diffraction, X-rays -- Observations, Chemicals, plastics and rubber industries

Abstract

The terahertz (THz) vibrational spectroscopy of organic polycrystalline thin films is characterized, using a method of waveguide terahertz time domain spectroscopy (waveguide THz-TDS). X-ray diffraction has determined the orientation of the polycrystalline tetracyanoquinodimethane (TCNQ) films on the parallel plate waveguide (PPWG) surface.

Published

2007

22. Preparation and characterization of bottom ferromagnetic electrode for graphene based magnetic junction

Author

Cheng, Shufan, primary, Cobas, Enrique, additional, van 't Erve, Olaf M.J., additional, and Jonker, Berend T., additional

Published

2016

23. Effect of thiourea on the activity of the polypyrrole uricase electrode and determination of thiourea

Author

Cheng Shufan and Mu Shaolin

Subjects

Immobilized enzyme, General Chemical Engineering, Inorganic chemistry, Enzyme electrode, Urate oxidase, Polypyrrole, Analytical Chemistry, Reaction rate, chemistry.chemical_compound, Thiourea, chemistry, Electrode, Electrochemistry, Uric acid

Abstract

An inactive polypyrrole uricase electrode can be activated by thiourea and reused for determining the concentration of uric acid. We have observed an interesting reaction in which the oxidation of thiourea is catalysed by the uricase immobilized on a polypyrrole film in the absence of uric acid. The reaction rate of the enzyme electrode with respect to thiourea decreases with increasing pH value and increases with increasing applied potential and temperature. The activation energy of the enzyme-catalysed reaction for the thiourea is 42.2 kJ mol −1 . The response current of the enzyme electrode in the absence of uric acid increases linearly with increasing concentration of thiourea in the range below 2.0 mmol dm −3 . Thus the polypyrrole uricase electrode can be used to determine the concentration of thiourea.

Published

1993

24. Structures with Improved Magnetic Characteristics for Giant Magneto-Resistance Applications

Author

DEPARTMENT OF THE NAVY WASHINGTON DC, Bussmann, Konrad, Lubitz, Peter, Cheng, Shufan, DEPARTMENT OF THE NAVY WASHINGTON DC, Bussmann, Konrad, Lubitz, Peter, and Cheng, Shufan

Abstract

A GMR stack has at least two ferromagnetic layers (e.g., CoFe) spaced from each other by a nonferromagnetic layer (e.g., Cu). A layer of a phase-breaking material (such as Ta or a Ta-base alloy) between, the nonferromagnetic layer and at least one of the two ferromagnetic layers prevents the undesirable growth of large-grained structures in the ferromagnetic layers

Published

1998

25. Neutron Spectroscopy Evidence for a Possible Magnetic-Field-Induced Gapless Quantum-Spin-Liquid Phase in a Kitaev Material α -RuCl3.

Author

Zhao, Xiaoxue, Ran, Kejing, Wang, Jinghui, Bao, Song, Shangguan, Yanyan, Huang, Zhentao, Liao, Junbo, Zhang, Bo, Cheng, Shufan, Xu, Hao, Wang, Wei, Dong, Zhao-Yang, Meng, Siqin, Lu, Zhilun, Yano, Shin-ichiro, Yu, Shun-Li, Li, Jian-Xin, and Wen, Jinsheng

Subjects

*NEUTRON spectroscopy, *INELASTIC neutron scattering, *NEUTRON measurement, *MAGNETIC fields, *SINGLE crystals, *NEUTRONS

Abstract

As one of the most promising Kitaev quantum-spin-liquid (QSL) candidates, α -RuCl3 has received a great deal of attention. However, its ground state exhibits a long-range zigzag magnetic order, which defies the QSL phase. Nevertheless, the magnetic order is fragile and can be completely suppressed by applying an external magnetic field. Here, we explore the evolution of magnetic excitations of α -RuCl3 under an in-plane magnetic field, by carrying out inelastic neutron scattering measurements on high-quality single crystals. Under zero field, there exist spin-wave excitations near the M point and a continuum near the Î" point, which are believed to be associated with the zigzag magnetic order and fractional excitations of the Kitaev QSL state, respectively. By increasing the magnetic field, the spin-wave excitations gradually give way to the continuous excitations. On the verge of the critical field ÎĽ 0 H c = 7.5 T, the former ones vanish and only the latter ones are left, indicating the emergence of a pure QSL state. By further increasing the field strength, the excitations near the Î" point become more intense. By following the gap evolution of the excitations near the Î" point, we are able to establish a phase diagram composed of three interesting phases, including a gapped zigzag order phase at low fields, possibly gapless QSL phase near ÎĽ 0 H c, and gapped partially polarized phase at high fields. These results demonstrate that an in-plane magnetic field can drive α -RuCl3 into a long-sought QSL state near the critical field. [ABSTRACT FROM AUTHOR]

Published

2022