6533b7dcfe1ef96bd1273519

RESEARCH PRODUCT

Magnetic order in a Kondo lattice: A neutron scattering study of CeCu2Ge2

M. DuczmalH. SpilleU. GottwickA. P. MuraniFrank SteglichK. KnorrAlois LoidlR. CasparyG. KnoppL. Pawlak

subject

PhysicsNeutron magnetic momentCondensed matter physicsMagnetic structureInelastic scatteringNeutron scatteringCondensed Matter PhysicsInelastic neutron scatteringElectronic Optical and Magnetic MaterialsMagnetizationQuasielastic neutron scatteringCondensed Matter::Strongly Correlated ElectronsGeneral Materials ScienceKondo effect

description

Elastic and inelastic neutron scattering studies of the Kondo lattice CeCu2Ge2 were performed. AtTN=4.1 K an incommensurate magnetic order develops with an ordering wave vectorq0=(0.28, 0.28, 0.54) and an ordered moment µs=0.74 µB. The crystalline electric field splits the 4f1-J-multiplet of the Ce ion into a ground state doublet and a quartet at 191 K. The wave function of the ground state yields an ordered moment of 1.54µB. Thus, due to the onset of the formation of a Kondo singlet the magnetic moment is considerably reduced. The magnetic relaxation rate Λ was investigated via quasielastic neutron scattering. The temperature dependence of Λ(T) is characteristic of heavy-fermion systems with a high temperature square root dependence and a limiting low temperature value, yielding a Kondo temperatureTK≈10K. The quasielastic component of the scattered neutron intensities persists down to the lowest temperatures, well belowTN. This quasielastic line is regarded as a characteristic feature of heavy-fermion systems and corresponds to the enhanced value of the linear term of the specific heat.

yearjournalcountryeditionlanguage
1989-02-01Zeitschrift f�r Physik B Condensed Matter
https://doi.org/10.1007/bf01313625