Spin Ice: Magnetic Excitations without Monopole Signatures using Muon Spin Rotation

Theory predicts the low-temperature magnetic excitations in spin ices consist of deconfined magnetic charges, or monopoles. A recent transverse-field (TF) muon spin rotation ($\mu$SR) experiment [S T Bramwell {\it et al}, Nature {\bf 461}, 956 (2009)] reports results claiming to be consistent with the temperature and magnetic field dependence anticipated for monopole nucleation $-$ the so-called second Wien effect. We demonstrate via a new series of $\mu$SR experiments in Dy$_2$Ti$_2$O$_7$ that such an effect is not observable in TF $\mu$SR. Rather, as found in many highly frustrated magnetic materials, we observe spin fluctuations which become temperature independent at low temperatures, behavior which dominates over any possible signature of thermally nucleated monopole excitations.