UTe2 shows an intrinsic electrically switchable superconducting memory effect via current-pulse control of vortex pinning in an intermediate field regime between two phases.
arXiv:2503.21506
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cond-mat.supr-con 2years
2026 2verdicts
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Vector magnetic-field STM spectroscopy shows Zeeman suppression of site-selective in-gap states on Te atoms in UTe2, providing spectroscopic evidence for topological surface states with dominant Te-orbital character.
citing papers explorer
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Electrically-controllable superconducting memory effect in UTe2
UTe2 shows an intrinsic electrically switchable superconducting memory effect via current-pulse control of vortex pinning in an intermediate field regime between two phases.
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Topological surface states revealed by the Zeeman effect in superconducting UTe2
Vector magnetic-field STM spectroscopy shows Zeeman suppression of site-selective in-gap states on Te atoms in UTe2, providing spectroscopic evidence for topological surface states with dominant Te-orbital character.