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Strain continuously rotates the N\'eel vector in altermagnetic MnTe

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abstract

Altermagnetism has recently emerged as a distinct class of collinear antiferromagnets that break time-reversal symmetry, exhibiting a host of novel properties. Applied strain has attracted particular attention as a key tuning parameter for altermagnets. Although several experimental studies have demonstrated the preparation of single-domain states through a combination of applied strain and magnetic field, the route to such states remains unclear. Here, we use magneto-optical measurements on single crystals of MnTe under applied strain to show that, in contrast to previous reports, strain acts primarily to rotate the N\'eel vector L continuously. Since the orientation of L determines the magnetic point group symmetry, this continuous rotation effectively tunes the symmetry and its associated physical properties. Furthermore, we demonstrate that built-in strain in free-standing crystals is sufficient to pin L into continuous textures over millimeter length scales. Together, these results provide guidance for future device design and open the door to leveraging the N\'eel vector orientation as a tunable degree of freedom in spintronic applications.

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2026 4

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All-electrical dephasing-protected spin qubits in altermagnets

cond-mat.mes-hall · 2026-06-24 · unverdicted · novelty 6.0

Altermagnets provide all-electrical, dephasing-protected spin qubits in quantum dots with tunable frequencies via dot ellipticity and support for fSim gates plus singlet-triplet operation.

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