Approaching High-Temperature Superconductivity: Insights from Heavy Fermions and Quantum Criticality

Dec 30, 2025

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This comprehensive exploration delves into the realm of high-temperature superconductors (High-Tc) and their connections to quantum criticality, particularly focusing on heavy fermions. Key materials such as Sr2RuO4, ReTe3, and various pnictides are examined alongside related phenomena like charge density waves (CDWs) and spin density waves (SDWs). The interplay between unconventional superconductivity and systems like TaS2 and BaPbBiO sheds light on the complexities of superconducting and anomalous ferromagnetic properties. A deep understanding of these relationships could pave the way for future breakthroughs in high-Tc superconductivity.

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Approaching High-Temperature Superconductivity: Insights from Heavy Fermions and Quantum Criticality

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High-Tc
How can we approach?

(dz orbital)Ruihua
The big big picture Quantum criticality: Heavy Fermions Ruthenates unconventional SCs: Pnictides Heavy Fermion Sr2RuO4 etc CDWs/SDWs/DWs: ReTe3 Pnictides Isostructural TMOs: Nickelates Ruthenates High-Tc Manganites SC+CDW systems: TaS2 BaPbBiO AF+SC systems: Heavy Fermion