Magnetic field dependence of the antiferromagnetic phase transitions in Co-doped YbRh2Si2

Abstract

We present first specific-heat data of the alloy Yb(Rh(1-x)Cox)2Si2 at intermediate Co-contents x=0.18, 0.27, and 0.68. The results already point to a complex magnetic phase diagram as a function of composition. Co-doping of YbRh2Si2 (TNx=0=72 mK) stabilizes the magnetic phase due to the volume decrease of the crystallographic unit cell. The magnetic phase transitions are clearly visible as pronounced anomalies in C4f(T)/T and can be suppressed by applying a magnetic field. Going from x=0.18 to x=0.27 we observe a change from two mean-field (MF) like magnetic transitions at TN0.18=1.1 K and TL0.18=0.65 K to one sharp λ-type transition at TN0.27=1.3 K. Preliminary measurements under magnetic field do not confirm the field-induced first-order transition suggested in the literature. For x=0.68 we find two transitions at TN0.68=1.14 K and TL0.68=1.06 K.