Thermodynamic properties of quadrupolar states in the frustrated pyrochlore magnet Tb2Ti2O7

Abstract

The low-temperature thermodynamic properties of the frustrated pyrochlore Tb2+xTi2-xO7+y have been studied using the single crystal of x=0.005 sitting in a long range ordered phase in the x-T phase diagram. We observed that the specific heat exhibits a minimum around 2 K and slightly increases on cooling, similar to a Schottky-like anomaly for canonical spin ices. A clear specific-heat peak observed at T c = 0.53 K is ascribable to the phase transition to a quadrupolar state, which contributes to a relatively large change in entropy, S 2.7 J K-1mol-1. However, it is still smaller than R2 for the ground state doublet of the Tb ions. The entropy release persists to higher temperatures, suggesting strong fluctuations associated with spin ice correlations above T c. We discuss the field dependence of the entropy change for H||[111] and H||[001].