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panda:se:list_of_publications [2020/07/08 17:30] – Astrid Schneidewind | panda:publications [2021/08/11 19:34] (current) – Astrid Schneidewind | ||
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- | Magnonic Weyl states in Cu2OSeO3. L.-C. Zhang et al. Phys. Rev. Research 2, 013063 (2020) | + | See complete list here: [[https:// |
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+ | ====2021==== | ||
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+ | //Local origin of the strong field-space anisotropy in the magnetic phase diagrams of Ce1−xLaxB6 measured in a rotating magnetic field// . | ||
+ | D. S. Inosov, S. Avdoshenko, P. Y. Portnichenko, | ||
+ | **Phys. Rev. B 103, 214415 (2021)** \\ | ||
+ | https:// | ||
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+ | //Spin dynamics study and experimental realization of tunable single-ion anisotropy in multiferroic Ba2CoGe2O7 under external magnetic fields// . | ||
+ | R. Dutta, H. Thoma, I. Radelytskyi, | ||
+ | **Phys. Rev. B** 104,L020403 (2021) \\ | ||
+ | https:// | ||
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+ | // | ||
+ | https:// | ||
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+ | // | ||
+ | spin dynamics in Cu2GaBO5 and Cu2AlBO5 ludwigites// | ||
+ | https:// | ||
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+ | ====2020==== | ||
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+ | // | ||
+ | https:// | ||
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+ | //Dramatic impact of intermediate-valence impurity on induced magnetism in singlet ground state system PrNi// . P.S. Savchenkov et al. | ||
+ | **Journal of Magnetism and Magnetic Materials** 514, 167187 \\ | ||
+ | https:// | ||
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+ | //Magnonic Weyl states in Cu2OSeO3//. L.-C. Zhang et al. **Phys. Rev. Research** 2, 013063 (2020) | ||
+ | https:// | ||
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+ | //Magnetic anisotropy in ferromagnetic CrI3//. Lebing Chen et al. **PRB** B 101, 134418 (2020) | ||
+ | https:// | ||
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+ | //Nature of the spin resonance mode in CeCoIn5//. Yu Song et al. **Nature Communications Physics** | ||
+ | https:// | ||
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+ | //Neutron Spin Resonance in the Heavily Hole-Doped KFe2As2 Superconductor// | ||
+ | https:// | ||
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+ | // | ||
+ | https:// | ||
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+ | // | ||
+ | https:// | ||
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+ | //Neutron scattering study of commensurate magnetic ordering in single crystal CeSb2//, Benqiong Liu et al., **Journal of Physics: Condensed Matter** 32, 405605 (2020) | ||
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+ | ====2019==== | ||
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+ | //Spin-wave directional anisotropies in antiferromagnetic Ba3NbFe3Si2O14//, | ||
+ | https:// | ||
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+ | // | ||
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+ | //Evidence for singular-phonon-induced nematic superconductivity in a topological superconductor candidate Sr0.1Bi2Se3//, | ||
+ | https:// | ||
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+ | // | ||
+ | https:// | ||
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+ | //Interplay of Electronic and Spin Degrees in Ferromagnetic SrRuO3: Anomalous Softening of the Magnon Gap and Stiffness//, | ||
+ | https:// | ||
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+ | // | ||
+ | https:// | ||
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+ | //Relaxing Kondo-screened Kramers doublets in CeRhSi3//, J. Pásztorová et al., **Phys. Rev. B.** 99 125144 \\ | ||
+ | https:// | ||
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+ | // | ||
+ | https:// | ||
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+ | // | ||
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- | Magnetic anisotropy in ferromagnetic CrI3. Lebing Chen et al. PRB B 101, 134418 (2020) | ||
- | Nature of the spin resonance mode in CeCoIn5. Yu Song et al. Nature Communications Physics | ||
- | Neutron Spin Resonance in the Heavily Hole-Doped KFe2As2 Superconductor.Shoudong Shen et al. PRL 124, 017001 (2020) https:// | ||
- | Field-Angle-Resolved Magnetic Excitations as a Probe of Hidden-Order Symmetry in CeB6. P. Y. Portnichenko et al. https:// | ||
- | Ultrasmall Moment Incommensurate Spin Density Wave Order Masking a Ferromagnetic Quantum Critical Point in NbFe2. P. Niklowitz et al. https:// |