Quasiquartet CEF ground state with possible quadrupolar ordering in the tetragonal compound YbRu2Ge2
Abstract
e have investigated the magnetic properties of YbRu2Ge2 by means of magnetic susceptibility (T), specific heat C(T) and electrical resistivity (T) measurements performed on flux grown single crystals. The Curie-Weiss behavior of (T) along the easy plane, the large magnetic entropy at low temperatures and the weak Kondo like increase in (T) proves a stable trivalent Yb state. Anomalies in C(T), (T) and (T) at T0 = 10.2 K, T1 = 6.5 K and T2 = 5.7 K evidence complex ordering phenomena, T0 being larger than the highest Yb magnetic ordering temperature found up to now. The magnetic entropy just above T0 amounts to almost Rln4, indicating that the crystal electric field (CEF) ground state is a quasiquartet instead of the expected doublet. The behavior at T0 is rather unusual and suggest that this transition is related to quadrupolar ordering, being a consequence of the CEF quasiquartet ground state. The combination of a quasiquartet CEF ground state, a high ordering temperature, and the relevance of quadrupolar interactions makes YbRu2Ge2 a rather unique system among Yb based compounds.
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