Aging dynamics across a dynamic Almeida-Thouless line in three dimensional short-range Issuing spin glass Cu0.5Co0.5Cl2-FeCl3 graphite bi-intercalation compound

Abstract

Cu0.5Co0.5Cl2-FeCl3 graphite intercalation compound is a three-dimensional short-range Ising spin glass with a spin freezing temperature Tc (= 3.92 0.11 K). The stability of the spin glass phase in the presence of a magnetic field H is examined from (i) the spin freezing temperature Tf(ω,H) at which the differential field-cooled (FC) susceptibility ∂ MFC(T,H)/∂ H coincides with the dispersion (ω,T,H=0) with the angular frequency ω, and (ii) the time dependence of zero-field cooled (ZFC) susceptibility ZFC after a ZFC aging protocol with a wait time tW (= 1.0 × 104). The relaxation rate S(t) (= dZFC/d t) exhibits a local maximum at a characteristic time tcr, reflecting non-equilibrium aging dynamics. The peak time tcr(T,H) decreases with increasing H at the fixed temperature T (2.9 K ≤ T<Tc). The spin freezing temperature Tf(ω,H) provides evidence for the instability of the spin glass phase in thermal equilibrium in a finite magnetic field. Both tcr(T,H) and Tf(ω,H) exhibit certain scaling behavior predicted from the droplet picture, suggesting a dynamic crossover from SG dynamics to paramagnetic behavior in the presence of H.

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