An external magnetic field induces momentum-selective symmetry breaking in CsV3Sb5's electronic structure, consistent with piezomagnetism originating from vanadium Van Hove singularities at the charge density wave onset.
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Soft loop-current fluctuations involving vanadium and antimony orbitals in kagome metals mediate chiral d+id and disorder-robust s± pairing channels, with a pressure-driven Lifshitz transition selecting between them.
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Magnetic field-induced momentum-dependent symmetry breaking in a kagome superconductor
An external magnetic field induces momentum-selective symmetry breaking in CsV3Sb5's electronic structure, consistent with piezomagnetism originating from vanadium Van Hove singularities at the charge density wave onset.
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Superconductivity in kagome metals due to soft loop-current fluctuations
Soft loop-current fluctuations involving vanadium and antimony orbitals in kagome metals mediate chiral d+id and disorder-robust s± pairing channels, with a pressure-driven Lifshitz transition selecting between them.