Nature Search

Spin excitations and flat electronic bands in a Cr-based kagome superconductor

The authors find low-energy magnetic excitations and a flat band near the Fermi level in kagome metal superconductor CsCr3Sb5 by angle-resolved photoemission and resonant inelastic X-ray scattering. They suggest that the flat band plays a role in the emergence of charge/magnetic order at low temperatures.

Zehao Wang
Yucheng Guo
Pengcheng Dai
ResearchOpen Access14 Aug 2025
Nature Communications

Volume: 16, P: 1-11
Brain regulates weight bearing bone through PGE2 skeletal interoception: implication of ankle osteoarthritis and pain

Feng Gao
Qimiao Hu
Xu Cao
ResearchOpen Access05 Mar 2024
Bone Research

Volume: 12, P: 1-15
Amplified multipartite entanglement witnessed in a quantum critical metal

Strange metals exhibit anomalous electronic and thermodynamic properties near a quantum critical point. Here the authors show theoretically that entanglement quantified by quantum Fisher information is amplified in a strange metal at a quantum critical point, which is supported by analysis of experimental data.

Yuan Fang
Mounica Mahankali
Qimiao Si
ResearchOpen Access14 Mar 2025
Nature Communications

Volume: 16, P: 1-7
CXCL5 activates CXCR2 in nociceptive sensory neurons to drive joint pain and inflammation in experimental gouty arthritis

Here, the authors demonstrate that CXCL5 expression is increased in ankle joints of gouty arthritis model mice. CXCL5-neuronal CXCR2-TRPA1 axis contributes to gouty arthritis pain, neutrophil influx and joint inflammation.

Chengyu Yin
Boyu Liu
Boyi Liu
ResearchOpen Access16 Apr 2024
Nature Communications

Volume: 15, P: 1-21
Emergent flat band and topological Kondo semimetal driven by orbital-selective correlations

Flat electronic bands can give rise to correlation-driven phases but for this, they need to be tuned to the Fermi level. Here the authors predict flat bands pinned at the Fermi level due to orbital-selective interactions and discuss implications for the design of topological Kondo semimetal in d-electron systems.

Lei Chen
Fang Xie
Qimiao Si
ResearchOpen Access19 Jun 2024
Nature Communications

Volume: 15, P: 1-7
Reversible non-volatile electronic switching in a near-room-temperature van der Waals ferromagnet

The controlled manipulation of the topological phases of electronic materials is a central goal of modern condensed matter research. Here, the authors demonstrate controllable switching between two distinct topological phases in a layered ferromagnet via thermal cycling.

Han Wu
Lei Chen
Ming Yi
ResearchOpen Access28 Mar 2024
Nature Communications

Volume: 15, P: 1-11
Topological semimetal driven by strong correlations and crystalline symmetry

Strongly correlated topological materials are hard to identify. Now a design principle suggests a method for producing many topological metals where strong electron–electron interactions are a driving force.

Lei Chen
Chandan Setty
Qimiao Si
Research15 Sept 2022
Nature Physics

Volume: 18, P: 1341-1346
Inhomogeneous Kondo-lattice in geometrically frustrated Pr₂Ir₂O₇

Pyrochlore iridates lie at a tuning-free magnetic quantum critical point hosting several complex exotic phenomena. Here, the authors discover an electronic phase separation in single crystalline Pr₂Ir₂O₇, where well-defined Kondo resonances are interweaved with a non-magnetic metallic phase with Kondo-destruction.

Mariam Kavai
Joel Friedman
Pegor Aynajian
ResearchOpen Access02 Mar 2021
Nature Communications

Volume: 12, P: 1-8
Resonance from antiferromagnetic spin fluctuations for superconductivity in UTe₂

Inelastic neutron scattering measurements show that superconductivity in UTe₂ is associated with a resonance near antiferromagnetic order that suggests an unexpected spin-singlet component to the electron pairing.

Chunruo Duan
R. E. Baumbach
Pengcheng Dai
Research22 Dec 2021
Nature

Volume: 600, P: 636-640
Quantum critical metals and loss of quasiparticles

The strange-metal state that develops close to a quantum critical point in strongly correlated electron systems is not well understood. This Review summarizes how the notion of Kondo destruction can describe much of the experimental phenomenology.

Haoyu Hu
Lei Chen
Qimiao Si
Reviews09 Dec 2024
Nature Physics

Volume: 20, P: 1863-1873
Flat bands, strange metals and the Kondo effect

Flat-band materials such as kagome and moiré lattices and strongly correlated electron systems including heavy-fermion compounds exhibit strikingly similar phenomena of topology and strong correlations. This Perspective article discusses Kondo physics as the underlying theme and a route to a unified understanding.

Joseph G. Checkelsky
B. Andrei Bernevig
Silke Paschen
Reviews20 Feb 2024
Nature Reviews Materials

Volume: 9, P: 509-526
Observation of flat bands and Dirac cones in a pyrochlore lattice superconductor

Jianwei Huang
Chandan Setty
Ming Yi
ResearchOpen Access19 Sept 2024
npj Quantum Materials

Volume: 9, P: 1-10
Quantum phases driven by strong correlations

Strong correlations may produce states of matter that do not have non-interacting counterparts, with new types of quantum criticality, superconductivity, and topological phases being recent highlights. This Review describes the physics underlying these correlated states and points to their potential for quantum applications.

Silke Paschen
Qimiao Si
Reviews22 Dec 2020
Nature Reviews Physics

Volume: 3, P: 9-26
Chondrogenesis mediates progression of ankylosing spondylitis through heterotopic ossification

Tao Yu
Jianguo Zhang
Xu Cao
ResearchOpen Access17 Mar 2021
Bone Research

Volume: 9, P: 1-12
Multiorbital singlet pairing and d + d superconductivity

Emilian M. Nica
Qimiao Si
ResearchOpen Access05 Jan 2021
npj Quantum Materials

Volume: 6, P: 1-11

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