Spin Dynamics at Very Low Temperature in Spin Ice Dy2Ti2O7

Abstract

We have performed AC susceptibility and DC magnetic relaxation measurements on the spin ice system Dy2Ti2O7 down to 0.08 K. The relaxation time of the magnetization has been estimated below 2 K down to 0.08 K. The spin dynamics of Dy2Ti2O7 is well described by using two relaxation times (τ S (short time) and τ L (long time)). Both τ S and τ L increase on cooling. Assuming the Arrhenius law in the temperature range 0.5-1 K, we obtained an energy barrier of 9 K. Below 0.5 K, both τ S and τ L show a clear deviation from the thermal activated dynamics toward temperature independent relaxation, suggesting a quantum dynamics.