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Magnon interactions in a moderately correlated Mott insulator.

Qisi WangS MustafiEllen FoghN AstrakhantsevZ HeIzabela BiałoYing ChanL MartinelliMasafumi HorioOleh IvashkoN E ShaikKarin von ArxY SassaEugenio ParisMark H FischerYi TsengNiels B ChristensenA GaldiDarrell G SchlomKyle M ShenThorsten SchmittHenrik Moodysson RønnowJohan Chang
Published in: Nature communications (2024)
Quantum fluctuations in low-dimensional systems and near quantum phase transitions have significant influences on material properties. Yet, it is difficult to experimentally gauge the strength and importance of quantum fluctuations. Here we provide a resonant inelastic x-ray scattering study of magnon excitations in Mott insulating cuprates. From the thin film of SrCuO 2 , single- and bi-magnon dispersions are derived. Using an effective Heisenberg Hamiltonian generated from the Hubbard model, we show that the single-magnon dispersion is only described satisfactorily when including significant quantum corrections stemming from magnon-magnon interactions. Comparative results on La 2 CuO 4 indicate that quantum fluctuations are much stronger in SrCuO 2 suggesting closer proximity to a magnetic quantum critical point. Monte Carlo calculations reveal that other magnetic orders may compete with the antiferromagnetic Néel order as the ground state. Our results indicate that SrCuO 2 -due to strong quantum fluctuations-is a unique starting point for the exploration of novel magnetic ground states.
Keyphrases
  • monte carlo
  • molecular dynamics
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