Strained vanadium and niobium host orbitally polarized Cooper pairs that generate a transverse orbital magnetization perpendicular to an in-plane magnetic field.
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Overdamped polar nanoregion fluctuations provide the pairing glue at LaAlO3/KTaO3 interfaces, with geometric Rashba coupling yielding λ(θ) = λ0 + C sin²(θ) that maps to the observed quasi-linear Tc(θ) via Eliashberg solutions.
citing papers explorer
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Transverse Magnetic Response from Orbitally Polarized Cooper Pairs in Elemental Superconductors
Strained vanadium and niobium host orbitally polarized Cooper pairs that generate a transverse orbital magnetization perpendicular to an in-plane magnetic field.
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Geometric Rashba Control of Polar Pairing at LaAlO$_3$/KTaO$_3$ Interfaces
Overdamped polar nanoregion fluctuations provide the pairing glue at LaAlO3/KTaO3 interfaces, with geometric Rashba coupling yielding λ(θ) = λ0 + C sin²(θ) that maps to the observed quasi-linear Tc(θ) via Eliashberg solutions.