Neutron scattering; magnetism; super conductivity

EU project number: ERBFMGECT950060

EU-programme: 4. Frame Research Programme - 10.1 Stimulation of training and mobility

See abstract

Full name of research-institution/enterprise:
Paul Scherrer Institut PSI / ETH Zürich
Labor für Neutronenstreuung

Hahn-Meitner-Institut, Berlin (BRD), Physik-Institut, TU Graz (A), Institute of Physios, Krasnoyarsk (RU), Institute Laue-Langevin, Grenoble (F)

Within the present project neutron scattering investigations were performed at the Hahn-Meitner-Institute, Berlin. The results can be summarized as follows:
1. Superconductors: (a) Extensive studies of the magnetic excitations of Nd ions in the high-temperature superconducting compound Nd2-xCexCuO4 (00.10. Qur findings clearly prove that Nd2-xCexCuO4 cannot be considered as a prototype of a novel heavy-fermion system [1], in contrast to various theoretical works. (b) INS experiments were performed for the novel superconductors of type RMxNi2-x11B2C (R=Ho, Er, Tm; M=Co, Cu; 02. Magnetic materials: (a) The dispersion of the magnetic excitations was determined for the spinel-type ferrimagnet CuFe2O4 (Tc=750 K) in the temperature range 300 k < T < 750 K. Two non-degenerate spin-wave branches were observed which are separated by about 30 meV at room temperature. Upon increasing the temperature, the splitting decreases and disappears at 680 k, while the lower spinwave branch persists up to T. Further critical scattering experiments are planned to investigate this unusual behaviour. (b) LiCu2O2 is a novel mixed-valent spin-ladder compound with alternating Cu and Li chains. Magnetic susceptibility measurements show a broad maximum at 23 K which was interpreted as a transition to a 3-dimensionally ordered magnetic state. Our neutron diffraction experiments, however, gave no evidence for a magnetic phase transition (probably due to the small size of the ordered Cu moment).
[1] W. Henggeler et al., Phys. Rev. Lett. 80,1300 (1998).

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Swiss Project-Number: 96.0436-2