Pressure study on the interplay between magnetic order and valence-change crossover in EuPd2(Si1-xGex)2

Abstract

We present results of the magnetic susceptibility on high-quality single crystals of EuPd2(Si1-xGex)2 for Ge concentrations 0 ≤ x ≤ 0.105 performed under varying hydrostatic (He-gas) pressure 0 ≤ p ≤ 0.5 GPa. The work extends on recent studies at ambient pressure demonstrating the drastic change in the magnetic response from valence-change-crossover behavior for x = 0 and 0.058, to long-range antiferromagnetic (afm) order below TN = 47 K for x = 0.105. The valence-change-crossover temperature T'V shows an extraordinarily strong pressure dependence of dT'V/dp = +(80 10) K/GPa. In contrast, a very small pressure dependence of dTN/dp ≤ +(1 0.5) K/GPa is found for the afm order upon pressurizing the x = 0.105 crystal from p = 0 to 0.05 GPa. Remarkably, by further increasing the pressure to 0.1 GPa, a drastic change in the ground state from afm order to valence-change-crossover behavior is observed. Estimates of the electronic entropy, derived from analyzing susceptibility data at varying pressures, indicate that the boundary between afm order and valence-change crossover represents a first-order phase transition. Our results suggest a particular type of second-order critical endpoint of the first-order transition for x = 0.105 at pcr ≈ 0.06 GPa and Tcr ≈ 45 K where intriguing strong-coupling effects between fluctuating charge-, spin- and lattice degrees of freedom can be expected.