Thermodynamic behavior of Ce compounds tuned at Tord = 0

Abstract

Based on specific heat (Cm) and entropy evaluation, different magnetic phase diagrams of Ce compounds can be recognized: I) with the entropy of the ordered phase (SMO) decreasing with their order temperature (Tord): SMO => 0 as Tord => 0, being these systems the only candidates for Quantum Critical behavior. II) with phase boundaries ending at a finite temperature Critical Point because their Cm(Tord) jumps ( Cm) do not decrease sufficiently with Tord producing a SMO bottleneck, and III) those showing a transference of degrees of freedom to a non-magnetic heavy fermion (HF) component, with their Cm vanishing at T >> 0. There is also a IV) group of Ce HF fermions which do not order magnetically because they are tuned at Tord = 0. These compounds are at the top of the lim(T=>0) of δ Sm/δ T = γ . values because they collect the highest density of low energy excitations. From the analysis of Cm(T)=T and Sm(T) results performed on these selected Ce ternaries, a quantitative determination of an upper limit for the density of excitations is obtained, excluding any evidence of Cm(T)/T divergency at T => 0 in agreement with thermodynamic laws.