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Sub-spin-flop switching of a fully compensated antiferromagnet by magnetic field

3 Pith papers cite this work. Polarity classification is still indexing.

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abstract

The control of antiferromagnets by magnetic fields represents a fundamental challenge in condensed matter physics, owing to their fully compensated magnetic order and vanishing net magnetization. Conventional methods rely on either uncompensated moments or high-field spin-flop transitions. Here, we demonstrate low-field switching in the fully compensated antiferromagnet CeNiAsO -- a material recently proposed as a candidate for $p$-wave magnetism. Using an in-plane magnetic field well below the spin-flop threshold, we selectively stabilize one of two degenerate antiferromagnetic domains with mutually orthogonal sublattice orientations. This field-induced domain selection allows reversible and nonvolatile switching of a giant in-plane resistivity anisotropy up to $\sim35\,\%$ -- a magnitude that far exceeds conventional anisotropy signals driven by spin-orbit coupling. The switching behavior persists across both the low-temperature noncollinear N\'{e}el phase and the higher-temperature collinear spin-density-wave phase, highlighting the universality of the domain-selection mechanism. Our work establishes a practical approach for manipulating compensated antiferromagnets with modest magnetic fields and underscores their potential for high-performance spintronic devices based on giant and switchable resistivity anisotropy.

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2026 2 2025 1

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UNVERDICTED 3

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representative citing papers

$P$-wave Orbital Magnetism

cond-mat.mes-hall · 2026-04-20 · unverdicted · novelty 6.0

P-wave orbital magnetism protected by combined translation and time-reversal symmetry is proposed to originate from loop-current-induced orbital textures in a 2D Dirac lattice model, measurable via orbital Hall conductivity.

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Showing 2 of 2 citing papers after filters.

  • Suppression of p-Wave Altermagnetism by Localized 4f Electrons in CeNiAsO cond-mat.str-el · 2026-06-01 · unverdicted · none · ref 28 · internal anchor

    Localized Ce 4f electrons suppress p-wave altermagnetic band splitting in CeNiAsO's Ni 3d conduction bands to the few-meV scale.

  • $P$-wave Orbital Magnetism cond-mat.mes-hall · 2026-04-20 · unverdicted · none · ref 22 · internal anchor

    P-wave orbital magnetism protected by combined translation and time-reversal symmetry is proposed to originate from loop-current-induced orbital textures in a 2D Dirac lattice model, measurable via orbital Hall conductivity.