Skip to search formSkip to main contentSkip to account menu
DOI:10.1088/0256-307X/38/3/037403 - Corpus ID: 231699136
@article{Yin2021SuperconductivityAN, title={Superconductivity and Normal-State Properties of Kagome Metal RbV3Sb5 Single Crystals}, author={Qiangwei 蔷薇 Yin 殷 and Zhijun 志俊 Tu 涂 and Chunsheng 春生 Gong 龚 and Yang 阳 Fu 付 and Shaohua 少华 Yan 闫 and Hechang 和畅 Lei 雷}, journal={Chinese Physics Letters}, year={2021}, volume={38}, url={https://api.semanticscholar.org/CorpusID:231699136}}
- Qiangwei 蔷薇 Yin 殷, Zhijun 志俊 Tu 涂, H. Lei 雷
- Published in Chinese Physics Letters 25 January 2021
- Physics
We report the discovery of superconductivity and detailed normal-state physical properties of RbV3Sb5 single crystals with V kagome lattice. RbV3Sb5 single crystals show a superconducting transition at T c ∼ 0.92 K. Meanwhile, resistivity, magnetization and heat capacity measurements indicate that it exhibits anomalies of properties at T * ∼ 102–103 K, possibly related to the formation of charge ordering state. When T is lower than T *, the Hall coefficient R H undergoes a drastic change and…
191 Citations
16
63
6
8
Ask This Paper
BETA
AI-Powered
Ask This Paper
BETA
AI-Powered
Unknown Error
An unexpected error occurred. Please try again.
No Answer Found
Ask another question that can be answered by this paper or rephrase your question.
We are still processing this paper
Please try again later.
Question Answering Unavailable
Please try again later.
No Response
The server took too long to answer your question. You can either rephrase your question or wait until it is less busy.
AI-Generated
Thank you for your feedback!
We're sorry, something went wrong while submitting this feedback.
Thank you for your feedback!
We're sorry, something went wrong while submitting this feedback.
Supporting Statements
Our system tries to constrain to information found in this paper. Results quality may vary. Learn more about how we generate these answers.
Feedback?
191 Citations
- K. ChenN. N. Wang J. Cheng
- 2021
Physics
Physical review letters
This work demonstrates the potential to raise T_{c} of the V-based kagome superconductors, but also offers more insights into the rich physics related to the electron correlations in this novel family of topological kagomes metals.
- 192
- Highly Influenced[PDF]
- Shiyan LiChen Zhao Xiaofan Yang
- 2021
Physics
Recently superconductivity was discovered in the Kagome metal AV3Sb5 (A = K, Rb, and Cs), which has an ideal Kagome lattice of vanadium1-4. These V-based superconductors also host charge density…
- 103 [PDF]
- Jianzhou ZhaoWeikang WuYilin WangShengyuan A. Yang
- 2021
Physics
Physical Review B
Recently, intensive studies have revealed fascinating physics, such as charge density wave and superconducting states, in the newly synthesized kagome-lattice materials $A$V$_3$Sb$_5$ ($A$=K, Rb,…
- 41
- Highly Influenced[PDF]
- Hongxiong LiuJ. Yao Youguo Shi
- 2023
Physics, Materials Science
Superconductivity in V-based kagome metals has recently raised great interest as they exhibit the competing ground states associated with the flat bands and topological electronic structures. Here we…
- 2
- Highly Influenced[PDF]
- Lingfei WangWei Zhang S. Goh
- 2023
Physics
Journal of Physics: Materials
AV3Sb5 (A = Cs, K, Rb) is a recently discovered superconducting system ( Tc∼0.9 –2.5 K) in which the vanadium atoms adopt the kagome structure. Intriguingly, these systems enter a charge-density-wave…
- 8
- Highly Influenced[PDF]
- Qian XiaoYi-Sheng Lin Y. Peng
- 2022
Physics
The recently discovered Kagome family ${\mathrm{AV}}_3{\mathrm{Sb}}_5$ (A = K, Rb, Cs) exhibits rich physical phenomena, including non-trivial topological electronic structure, giant anomalous Hall…
- 3
- Highly Influenced[PDF]
- N. Wang 王Yuhao 雨豪 Gu 顾 J. Cheng 程
- 2021
Physics
Chinese Physics B
Recently, transition-metal-based kagome metals have aroused much research interest as a novel platform to explore exotic topological quantum phenomena. Here we report on the synthesis, structure, and…
- 5
- Highly Influenced[PDF]
- N. N. WangK. Y. Chen J. Cheng
- 2021
Physics
Physical Review Research
The interplay between charge-density-wave (CDW) order and superconductivity (SC) in the Kagome metal RbV3Sb5 is studied by tracking the evolutions of their transition temperatures, T* and Tc, as a…
- 33
- Highly Influenced[PDF]
- Hengxin TanYizhou LiuZiqiang WangBinghai Yan
- 2021
Physics
Physical review letters
The inverse Star of David deformation is revealed as the 2×2×2 CDW ground state of the kagome lattice and the electron-phonon coupling is too weak to account for the superconductivity T_{c} in all three materials.
- 213
- Highly Influenced[PDF]
- Zhonghao LiuN. Zhao Shancai Wang
- 2021
Physics
Zhonghao Liu,1, 2, ∗ Ningning Zhao,3 Qiangwei Yin,3 Chunsheng Gong,3 Zhijun Tu,3 Man Li,3 Wenhua Song,3 Zhengtai Liu,1 Dawei Shen,1, 2 Yaobo Huang,4 Kai Liu,3, † Hechang Lei,3, ‡ and Shancai Wang3, §…
- 10
- Highly Influenced
...
...
38 References
- D. ShoenbergNew RochelleMelbourne SydneyContents
- 1984
Physics
Preface 1. Historical introduction 2. Theory 3. Observation of the de Haas-van Alphen effect 4. Other oscillatory effects 5. Fermi surfaces and cyclotron masses 6. Magnetic interaction 7. Magnetic…
- 1,724
- O. Castro-OrgazW. Hager
- 2019
Environmental Science, Geology
Shallow Water Hydraulics
- 67,498
- Highly Influential
- B. OrtizS. Teicher Stephen D. Wilson
- 2020
Physics, Materials Science
Physical review letters
The electronic properties of CsV_{3}Sb_{5} are presented, demonstrating bulk superconductivity in single crystals with a T_{c}=2.5 K, and the implications for the formation of unconventional super conductivity in this material are discussed.
- 397 [PDF]
- Shuo YangYaoji Wang Mazhar N. Ali
- 2020
Physics
Science advances
KV3Sb5 shows enhanced skew scattering that scales quadratically, not linearly, with the longitudinal conductivity, possibly arising from the combination of highly conductive Dirac quasiparticles with a frustrated magnetic sublattice, which allows the possibility of reaching an anomalous Hall angle of 90° in metals.
- 154
- PDF
- Jia-Xin YinW. Ma M. Zahid Hasan
- 2020
Physics, Materials Science
Nature
Scanning tunnelling microscopy is used to reveal a new topological kagome magnet with an intrinsic Chern quantum phase, which shows a distinct Landau fan structure with a large Chern gap, and the realization of a quantum-limit Chern phase in TbMn6Sn6 is point to.
- 237
- PDF
- Mingu KangS. Fang R. Comin
- 2020
Physics
Nature Communications
Topological flat bands are observed near the Fermi level in a kagome metal CoSn, with flat bands as well as Dirac bands originating from 3d orbitals in a frustrated kagom geometry demonstrated to be frustration-driven.
- 244 [PDF]
- Zhonghao LiuMan Li Shancai Wang
- 2020
Physics
Nature Communications
The observation of a flat band and Dirac bands as ideal features of kagome bands in CoSn, revealing orbital-selective character of the Dirac fermions.
- 146
- PDF
- B. OrtizB. Ortiz E. Toberer
- 2019
Materials Science, Physics
Physical Review Materials
In this work, we present our discovery and characterization of a new kagome prototype structure, KV3Sb5. We also present the discovery of the isostructural compounds RbV3Sb5 and CsV3Sb5. All…
- 247
- Mingu KangLinda Ye R. Comin
- 2019
Physics
Nature Materials
It is demonstrated that the bulk Dirac bands arise from in-plane localized Fe-3 d orbitals, and evidence that the coexisting Dirac surface state realizes a rare example of fully spin-polarized two-dimensional Dirac fermions due to spin-layer locking in FeSn is identified.
- 429 [PDF]
- Jia-Xin YinSongtian S. Zhang M Zahid Hasan
- 2018
Physics
Nature
The tunability of this kagome magnet reveals a strong interplay between an externally applied field, electronic excitations and nematicity, providing new ways of controlling spin–orbit properties and exploring emergent phenomena in topological or quantum materials10–12.
- 271 [PDF]
...
...
Related Papers
Showing 1 through 3 of 0 Related Papers