Interplay between Charge and Magnetic Ordering in YbPd

Abstract

The pressure-temperature phase diagram of an intermediate-valence compound YbPd was revealed via simultaneous ac-calorimetry and electrical resistivity measurements. Two successive structural phase transition temperatures, T1 = 125 K and T2 = 110 K, are found to decrease with increasing pressure. The magnetic ordering transition at T N ~sim 1.9 K decreases monotonically up to 1.7 GPa and disappears discontinuously at P c sim 1.9 GPa, where the structural phase transition at T2 is also suppressed. At P c, enhancement of the effective mass and residual resistivity are observed. Another probable magnetic phase transition, however, is found to take place at T ML sim0.3 K and smoothly varies even when crossing P c. Structural phase transitions at ambient pressure were also studied by a single crystal X-ray diffraction measurement. Below T2, a tetragonal lattice distortion with doubling of the unit cell along the c-axis is observed, and thus there are two inequivalent Yb-sites below P c. These results indicate that one Yb-site, having larger valence configuration and thus smaller Kondo temperature, orders at T N. The other phase transition at T ML seems to couple to the crystal structure for T2 < T < T1. YbPd is a unique system exhibiting magnetic orderings in metallic charge-ordered Yb systems.