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Effects of magnetic field, anisotropy, and biquadratic interactions in type-IIA fcc antiferromagnets studied by linear spin-wave theory
Trinanjan Datta
, Dao Xin Yao
Physics and Biophysics
Research output
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Contribution to journal
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Article
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peer-review
9
Scopus citations
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Engineering & Materials Science
Anisotropy
55%
Ground state
79%
Ions
48%
Magnetic fields
46%
Magnetization
62%
Neutron scattering
86%
Spin dynamics
100%
Spin waves
98%
Physics & Astronomy
anisotropy
33%
face centered cubic lattices
71%
ground state
35%
interactions
21%
ions
24%
magnetic fields
26%
magnetization
34%
magnons
52%
neutron scattering
46%
spin dynamics
58%
Chemical Compounds
Anisotropy
49%
Antiferromagnetic
17%
Electron Spin
29%
Face-Centered Cubic Crystal System
56%
Ground State
13%
Magnetic Field
49%
Magnetization
16%
Neutron Scattering
21%
Reduction
8%
Spin Wave
95%