Divergence of the Heavy Quasiparticle Mass at the Antiferromagnetic Quantum Critical Point in YbRh2Si2

Abstract

We report low temperature specific heat, C, magnetization, M, susceptibility, chi, and electrical resistivity, rho, measurements on high-quality single crystals of the heavy-fermion system YbRh2(Si1-x Gex)2 (x=0 and 0.05). The undoped compound shows weak antiferromagnetic (AF) order at TN=70 mK which is suppressed to below 10 mK by a tiny volume expansion in the x=0.05 system. In the latter pronounced deviations from Landau Fermi liquid (LFL) behavior occur, e.g. Delta rho ~ T over three decades in T. Both thermodynamic and magnetic properties show a crossover at about 0.3 K: At 0.3 K <= T <= 10 K we observe C/T ~ log(T0/T) and a &#34;non-Curie&#34; behavior chi-1 ~ Talpha with alpha<1 similar to what was found for the prototypical system CeCu5.9 Au0.1. Below 0.3 K, chi turns into a Curie-Weiss dependence chi-1 ~ (T-Theta) indicating large unscreened Yb3+ moments whereas in C(T)/T a pronounced upturn occurs. In the undoped compound the AF order is suppressed continuously by critical fields Bc0 ~= 0.06 T and 0.7 T applied perpendicular and parallel to the c-axis, respectively. For B>Bc0 a LFL state with Delta rho = A(B)T2 and C(T)/T = gamma0(B) is induced, that fulfills the Kadowaki-Woods scaling A ~ gamma02. Upon reducing the magnetic field to Bc0 a 1/(B-Bc0) dependence of A(B) and gamma02(B) indicates singular scattering at the whole Fermi surface and a divergence of the heavy quasiparticle mass.

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