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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RbV₃Sb₅ is proposed as a nodal topological superconductor with pseudo-spin-polarized pairs that induce hysteresis like ferromagnetic domains and host Majorana flat band modes detectable by tunneling.
A Ginzburg-Landau stacking analysis of the 2x2x4 CDW in CsV3Sb5 identifies chiral inversion-breaking phases when layer rigidity is relaxed, yet these phases remain rare in the phase diagram.
citing papers explorer
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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.
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Pseudo-spin-polarized topological superconductivity in kagome RbV$_3$Sb$_5$
RbV₃Sb₅ is proposed as a nodal topological superconductor with pseudo-spin-polarized pairs that induce hysteresis like ferromagnetic domains and host Majorana flat band modes detectable by tunneling.
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Four-layer charge density waves and chirality in CsV$_3$Sb$_5$
A Ginzburg-Landau stacking analysis of the 2x2x4 CDW in CsV3Sb5 identifies chiral inversion-breaking phases when layer rigidity is relaxed, yet these phases remain rare in the phase diagram.