Dresden 2006 – wissenschaftliches Programm

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MA: Magnetismus

MA 11: Spin-Structures and Magnetic Phase Transitions II

MA 11.5: Vortrag

Montag, 27. März 2006, 16:00–16:15, HSZ 403

Frustration in R₂PdSi₃ (R = Tb, Er): Spin-glass or magnetic short-range order? Neutron diffraction studies — •Matthias Frontzek¹, Andreas Kreyssig¹, Jens-Uwe Hoffmann², and Michael Loewenhaupt¹ — ¹TU Dresden, Institut für Festkörperphysik, 01062 Dresden — ²Hahn-Meitner-Institut, 14109 Berlin

The series R₂PdSi₃ (R = rare earth), crystallizing in an AlB₂ derived hexagonal structure, have been found to exhibit strong anisotropic magnetic properties. Below their respective Néel temperatures Tb₂PdSi₃ (24 K) and Er₂PdSi₃ (7 K) feature a second phase transition at 7 K and 2 K, respectively. This second transition shows a strong frequency dependence in ac-susceptibility measurements. Several authors assume a spin-glass state below this second phase transition.

We performed neutron diffraction experiments on E2 at HMI Berlin within a temperature range from 0.4 K to 300 K and magnetic fields up to 6.5 T on Tb₂PdSi₃ and Er₂PdSi₃ single crystals.

Tb₂PdSi₃ orders antiferromagnetically at 24 K with a magnetic moment direction in the basal plane and a propagation vector τ = (1/2  1/2  1/16). Furthermore, we observe additional short-range magnetic order (SRO) at low temperatures. The second phase transition is correlated to the temperature dependence of the SRO. The SRO becomes long range ordered when a magnetic field (>1.5 T) is applied.

Er₂PdSi₃ orders antiferromagnetically at 7 K with a magnetic moment direction along the hexagonal c-axis and a propagation vector τ = (0.11 0.11 0). In this case the second phase transition is correlated to a "squaring up" of the antiferromagnetic structure.