Power-law dynamics in the spin-liquid kagome lattices SrCr8Ga4O19 and ZnCu3(OH)6Cl2

Abstract

We consider the polarization function PexpZ(t) measured by the muon-spin relaxation (muSR) technique for the SrCr8Ga4O19 and ZnCu3(OH)6Cl2 spin-liquid systems. We show the functional form of PexpZ(t) to imply that, in the temperature range of order 0.1 K, the spectral-weight function F(ω) of the magnetic correlations scales with 1/|ω|1 -x (0 < x < 1) in the energy range of one microelectronvolt, i.e. ω ~ 1 μ eV. We derive the parameters involved in F(ω) from fits to available experimental data. Inelastic neutron scattering data probing F(ω) in the millielectronvolt energy range are consistent with a more conventional behavior. These differences could be due to a variety of spin-dynamics mechanisms, i.e. intrinsic to the kagome layer or related to the magnetic defects that have been evidenced in these compounds, acting at different energies. New muSR measurements are proposed and theoretical developments are suggested to pinpoint the mechanisms at play.