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panda:publications [2020/07/09 09:44] – Christian Franz | panda:publications [2020/10/05 17:02] – [2015] Astrid Schneidewind | ||
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====2020==== | ====2020==== | ||
- | //Magnonic Weyl states in Cu2OSeO3//. L.-C. Zhang et al. **Phys. Rev. Research** 2, 013063 | + | //Fractional antiferromagnetic skyrmion lattice induced by anisotropic couplings// . S. Gao, et al. **Nature** 583, 37 (2020) |
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- | //Magnetic anisotropy | + | //Magnonic Weyl states |
+ | https:// | ||
- | //Nature of the spin resonance mode in CeCoIn5//. Yu Song et al. **Nature Communications Physics** https:// | + | //Magnetic anisotropy |
+ | https:// | ||
- | //Neutron Spin Resonance | + | //Nature of the spin resonance mode in CeCoIn5//. Yu Song et al. **Nature Communications Physics** \\ |
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- | //Field-Angle-Resolved Magnetic Excitations as a Probe of Hidden-Order Symmetry in CeB6//. P. Y. Portnichenko | + | //Neutron Spin Resonance in the Heavily Hole-Doped KFe2As2 Superconductor//. Shoudong Shen et al. **PRL** 124, 017001 (2020) \\ |
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//Neutron scattering study of commensurate magnetic ordering in single crystal CeSb2//, Benqiong Liu et al., **Journal of Physics: Condensed Matter** (accepted manuscript) | //Neutron scattering study of commensurate magnetic ordering in single crystal CeSb2//, Benqiong Liu et al., **Journal of Physics: Condensed Matter** (accepted manuscript) | ||
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====2019==== | ====2019==== | ||
- | //Spin-wave directional anisotropies in antiferromagnetic Ba3NbFe3Si2O14//, | + | //Spin-wave directional anisotropies in antiferromagnetic Ba3NbFe3Si2O14//, |
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- | //Evidence for singular-phonon-induced nematic superconductivity in a topological superconductor candidate Sr0.1Bi2Se3//, | + | //Evidence for singular-phonon-induced nematic superconductivity in a topological superconductor candidate Sr0.1Bi2Se3//, |
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- | //Interplay of Electronic and Spin Degrees in Ferromagnetic SrRuO3: Anomalous Softening of the Magnon Gap and Stiffness//, | + | //Interplay of Electronic and Spin Degrees in Ferromagnetic SrRuO3: Anomalous Softening of the Magnon Gap and Stiffness//, |
+ | https:// | ||
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- | //Relaxing Kondo-screened Kramers doublets in CeRhSi3//, J. Pásztorová et al., **Phys. Rev. B.** 99 125144 | + | //Relaxing Kondo-screened Kramers doublets in CeRhSi3//, J. Pásztorová et al., **Phys. Rev. B.** 99 125144 \\ |
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====2018==== | ====2018==== | ||
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- | //Spin reorientation transition in Na-doped BaFe2As2 studied by single-crystal neutron diffraction//, | ||
====2017==== | ====2017==== | ||
- | //4-spin plaquette singlet state in the Shastry–Sutherland compound SrCu2(BO3)2//, | + | //Spin reorientation transition in Na-doped BaFe2As2 studied by single-crystal neutron diffraction//, |
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+ | //Absence of a Large Superconductivity-Induced Gap in Magnetic Fluctuations of Sr2 RuO4//, S. Kunkemöller et al., **Phys. Rev. Lett.** | ||
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+ | //Large positive correlation between the effective electron mass and the multipolar fluctuation in the heavy-fermion metal Ce1−xLaxB6//, | ||
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+ | //Spin Resonance and Magnetic Order in an Unconventional Superconductor//, | ||
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+ | //Spinon con_nement in a quasi one dimensional anisotropic Heisenberg magnet//, A. K. Bera, **Phys. Rev. B** 96 054423 | ||
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+ | //4-spin plaquette singlet state in the Shastry–Sutherland compound SrCu2(BO3)2//, | ||
+ | https:// | ||
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+ | //Magnetic phase diagram of CeCu2Ge2 up to 15 T: On the route to understand field-induced phase transitions//, | ||
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+ | //Magnetic excitations of the charge stripe electrons below half doping in La2−xSrxNiO4 (x = 0.45, 0.4)//, P. G. Freeman et al., **Phys. Rev. B** 95,064403 | ||
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+ | ==== 2016 ==== | ||
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+ | //Robust upward dispersion of the neutron spin resonance in the heavy fermion superconductor Ce1_xYbxCoIn5//, | ||
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+ | //Spin-wave and electromagnon dispersions in multiferroic MnWO4 as observed by neutron spectroscopy: | ||
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+ | //Magnetic field dependence of the neutron spin resonance in CeB6//, P.Y. Portnichenko et al., **Phys. Rev. B** 94, 035114 | ||
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+ | //Design of the cold neutron triple-axis spectrometer at the China Advanced Research Reactor//, P. Cheng et al., **Nuclear Instrum. Methods A** 821, 17 | ||
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+ | //Magnon spectrum of the helimagnetic insulator Cu2OSeO3//, P.Y. Portnichenko et al., **Nature Communications** 7,10725 | ||
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