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Quantum Resource Theories Coherence
Properties of Bose-Einstein condensates with altermagnetism
arXiv
Authors: Jia Wang, Zhao Liu, Xia-Ji Liu, Hui Hu
Year
2026
Paper ID
150
Status
Preprint
Abstract Read
~2 min
Abstract Words
131
Citations
N/A
Abstract
We investigate a weakly interacting two-component Bose--Einstein condensate in the miscible regime in the presence of altermagnetism, i.e., a collinear and globally compensated magnetic order that breaks spin-rotation symmetry while maintaining zero net magnetization. Within Bogoliubov theory, we derive the quasiparticle spectrum and coherence factors and show that altermagnetic order generically induces an angular dependence of the low-energy excitations. As a result, the sound velocity, momentum-resolved magnetization in the quantum depletion, and density--spin response functions acquire anisotropic components. We show that these anisotropic contributions vanish after angular averaging, consistent with the defining feature of altermagnetism: nontrivial local spin polarization without a global magnetization. Finally, we evaluate the Lee--Huang--Yang correction to the ground-state energy in the altermagnetic phase. Our results should be testable with ultracold-atom experiments in the foreseeable future.
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- We investigate a weakly interacting two-component Bose--Einstein condensate in the miscible regime in the presence of altermagnetism, i.e., a collinear and globally compensated...
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