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Hijano, A · 2021

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Non-volatile superconducting tunnelling magnetoresistance memory enabled by exchange-field gap engineering

cond-mat.supr-con · 2026-04-24 · unverdicted · novelty 6.0

A non-volatile superconducting tunnelling magnetoresistance memory is realized by exchange-field engineering of the superconducting gap, producing two switchable gap voltages and robust TMR with nanowatt read power and zero standby dissipation across the full superconducting temperature range.

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Non-volatile superconducting tunnelling magnetoresistance memory enabled by exchange-field gap engineering cond-mat.supr-con · 2026-04-24 · unverdicted · none · ref 1
A non-volatile superconducting tunnelling magnetoresistance memory is realized by exchange-field engineering of the superconducting gap, producing two switchable gap voltages and robust TMR with nanowatt read power and zero standby dissipation across the full superconducting temperature range.

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