Hyperspatial projections of decorated Ammann-Beenker and Penrose lattices host interaction-induced Néel order that realizes g-wave and h-wave altermagnetism compatible with quasicrystalline symmetries.
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A configuration-space framework shows that energy gaps in quasicrystals arise from resonant hybridization of increasingly distant sites, pinning the integrated density of states to specific irrational areas.
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Unconventional Altermagnetism in Quasicrystals: A Hyperspatial Projective Construction
Hyperspatial projections of decorated Ammann-Beenker and Penrose lattices host interaction-induced Néel order that realizes g-wave and h-wave altermagnetism compatible with quasicrystalline symmetries.
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On the origin of energy gaps in quasicrystalline potentials
A configuration-space framework shows that energy gaps in quasicrystals arise from resonant hybridization of increasingly distant sites, pinning the integrated density of states to specific irrational areas.