Spin fluctuations suppress SOC hybridization in GdAg2/Ag(111) above the Curie temperature by spin decoherence and band-dependent scattering, preserving nodal-line crossings as shown by ARPES spectral redistribution.
Cayao, Journal of Physics: Condensed Matter35, 254002 (2023)
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
Nonlinear spin conductivity in Floquet non-Hermitian d-wave altermagnets separates into quantum-metric, Berry-curvature and dipole terms and is dominated by the bare quantum metric, with polarization reversing both longitudinal and transverse currents.
citing papers explorer
-
Magnetic-fluctuation-driven suppression of spin-orbit hybridization in the surface ferromagnet GdAg$_2$/Ag(111)
Spin fluctuations suppress SOC hybridization in GdAg2/Ag(111) above the Curie temperature by spin decoherence and band-dependent scattering, preserving nodal-line crossings as shown by ARPES spectral redistribution.
-
Quantum Geometry-Driven Nonlinear Spin Currents in Floquet Non-Hermitian Altermagnets
Nonlinear spin conductivity in Floquet non-Hermitian d-wave altermagnets separates into quantum-metric, Berry-curvature and dipole terms and is dominated by the bare quantum metric, with polarization reversing both longitudinal and transverse currents.