Altermagnetic order turns circular Abrikosov vortices into elliptical ones whose orientation follows the magnetic field direction relative to the Néel vector, producing nonreciprocal magnetization curves in pinned superconducting films.
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cond-mat.supr-con 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Altermagnetic spin splitting selects direction-selective triplet pairing in 2D d-wave metals and generates spin-locked Majorana edge states in both spin-conserving and Rashba-mixed regimes.
citing papers explorer
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Abrikosov vortices in altermagnetic superconductors
Altermagnetic order turns circular Abrikosov vortices into elliptical ones whose orientation follows the magnetic field direction relative to the Néel vector, producing nonreciprocal magnetization curves in pinned superconducting films.
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Direction-selective triplet pairing and spin-edge locking in altermagnetic metals
Altermagnetic spin splitting selects direction-selective triplet pairing in 2D d-wave metals and generates spin-locked Majorana edge states in both spin-conserving and Rashba-mixed regimes.