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Spontaneous emergence of altermagnetism in the single-orbital extended Hubbard model

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arxiv 2507.00837 v2 pith:M6G3WLER submitted 2025-07-01 cond-mat.str-el

Spontaneous emergence of altermagnetism in the single-orbital extended Hubbard model

classification cond-mat.str-el
keywords localmodelordersingle-orbitalwavealtermagnetismanisotropycrystallographic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Altermagnetism (AM), the recently discovered third class of collinear magnetic order, is characterized by non-relativistic momentum-dependent spin-split electronic structure with compensated zero net magnetization. It can arise from the conventional antiferromagnetism by introducing local anisotropy on the two opposite-spin sublattices, either through structural changes in local crystallographic symmetry or spontaneous emergence of local staggered orbital order from electron correlations in multi-orbital systems. Here, we demonstrate on the two-dimensional square lattice that a $d$-wave AM can emerge spontaneously in the single-orbital extended Hubbard model, without invoking crystallographic anisotropy and multi-orbital physics. We carry out mean-field studies on the concrete single-orbital $t$-$U$-$V$ model with $U$ and $V$ the onsite and nearest-neighbor Coulomb interactions, obtaining the mean-field ground states, analyzing their properties, and determining the phase diagram in the $U$-$V$ plane. The $d$-wave AM with novel spin-transport behavior is found to be stabilized in a wide region of the phase diagram when the system is doped away from half-filling, actualized by the coexistence of onsite antiferromagnetic order and complex $d$-wave nearest-neighbor spin bond orders. Our findings provide an alternative route to achieve AM and substantially expand the range of candidate AM materials.

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Cited by 1 Pith paper

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  1. Altermagnetism in an interacting model of Kagome materials

    cond-mat.str-el 2025-10 unverdicted novelty 7.0

    Coulomb interactions drive altermagnetism in the Kagome Hubbard model at Dirac filling, producing an insulating state with split magnons detectable by inelastic neutron scattering.