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Ghosh A.♦, Chudziński P., Grüning M.♦, First-principles study and mesoscopic modeling of two-dimensional spin
and orbital fluctuations in FeSe,
PHYSICAL REVIEW RESEARCH, ISSN: 2643-1564, DOI: 10.1103/PhysRevResearch.6.043154, Vol.6, pp.043154-043171, 2024Abstract: We calculated the structural, electronic, and magnetic properties of FeSe within density-functional theory at
the generalized gradient approximation level. First, we studied how the bandwidth of the d-bands at the Fermi
energy is renormalized by adding simple corrections: Hubbard U , Hund’s J, and by introducing long-range
magnetic orders. We found that introducing either a striped or a staggered dimer antiferromagnetic order brings
the bandwidths—which are starkly overestimated at the generalized gradient approximation level—closer to
those experimentally observed. Second, for the ferromagnetic, the striped, checkerboard, and staggered dimer
antiferromagnetic order, we investigate the change in magnetic formation energy with local magnetic moment
of Fe at a pressure up to 6 GPa. The bilinear and biquadratic exchange energies are derived from the Heisenberg
model and noncollinear first-principles calculations, respectively. We found a nontrivial behavior of the spin-
exchange parameters on the magnetization, and we put forward a field-theory model that rationalizes these results
in terms of two-dimensional spin and orbital fluctuations. The character of these fluctuations can be either that
of a standard density wave or a topological vortex. Topological vortices can result in mesoscopic magnetization
structures. Affiliations:
Ghosh A. | - | other affiliation | Chudziński P. | - | IPPT PAN | Grüning M. | - | Queen’s University Belfast (IE) |
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