Crossover from Single-Ion to Coherent Non-Fermi Liquid Behavior in Ce1-xLaxNi9Ge4
Abstract
We report specific heat and magneto-resistance studies on the compound Ce1-xLaxNi9Ge4 for various concentrations over the entire stoichiometric range. Our data reveal single-ion scaling with Ce-concentration between x = 0.1 and 0.95. Furthermore, CeNi9Ge4 turns out to have the largest ever recorded value of the electronic specific heat c/T ≈ 5.5 J K-2mol-1 at T=0.08 K which was found in Cerium f-electron lattice systems. In the doped samples c/T increases logarithmically in the temperature range between 3 K and 50 mK typical for non-Fermi liquid (nFl) behavior, while exhibits a Kondo-like minimum around 30 K, followed by a single-ion local nFl behavior. In contrast to this, CeNi9Ge4 flattens out in c/T below 300 mK and displays a pronounced maximum in the resistivity curve at 1.5 K indicating a coherent heavy fermion groundstate. These properties render the compound Ce1-xLaxNi9Ge4 a unique system on the borderline between Fermi liquid and nFl physics.
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