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Magnon Nesting in Driven Two-Dimensional Quantum Magnets

Materials Science 2026-01-06 v3 Quantum Gases Pattern Formation and Solitons Quantum Physics

Abstract

We uncover a new class of dynamical quantum instability in driven magnets leading to emergent enhancement of antiferromagnetic correlations even for purely ferromagnetic microscopic couplings. A primary parametric amplification creates a frequency-tuned nested magnon distribution in momentum space, which seeds a secondary instability marked by the emergence of enhanced antiferromagnetic correlations, mirroring the instability of nested Fermi surfaces in electronic systems. In sharp contrast to the fermionic case, however, the magnon-driven instability is intrinsically non-equilibrium and fundamentally inaccessible in thermal physics. Its quantum mechanical origin sets it apart from classical instabilities such as Faraday and modulation instabilities, which underlie several instances of dynamical behavior observed in magnetic and cold-atom systems.

Keywords

Cite

@article{arxiv.2505.10531,
  title  = {Magnon Nesting in Driven Two-Dimensional Quantum Magnets},
  author = {Hossein Hosseinabadi and Yaroslav Tserkovnyak and Eugene Demler and Jamir Marino},
  journal= {arXiv preprint arXiv:2505.10531},
  year   = {2026}
}

Comments

13 pages, 9 figures

R2 v1 2026-06-28T23:34:50.623Z