Grueneisen Ratio Divergence at the Quantum Critical Point in CeCu6-xAgx

Abstract

The heavy fermion system CeCu6-xAgx is studied at its antiferromagnetic quantum critical point, xc=0.2, by low temperature (T≥ 50 mK) specific heat, C(T), and volume thermal expansion, β(T), measurements. Whereas C/T (T0/T) would be compatible with the predictions of the itinerant spin-density-wave (SDW) theory for two-dimensional critical spin fluctuations, β(T)/T and the Gr\"uneisen ratio, (T) β/C, diverge much weaker than expected, in strong contrast to this model. Both C and β, plotted as a function of the reduced temperature t=T/T0 with T0=4.6 K are similar to what was observed for YbRh2(Si0.95Ge0.05)2 (T0=23.3 K) indicating a striking discrepancy to the SDW prediction in both systems.

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