Memory and aging effect in hierarchical spin orderings of stage-2 CoCl2 graphite intercalation compound

Abstract

Stage-2 CoCl2 graphite intercalation compound undergoes two magnetic phase transitions at Tcl (= 7.0 K) and Tcu (= 8.9 K). The aging dynamics of this compound is studied near Tcl and Tcu. The intermediate state between Tcl and Tcu is characterized by a spin glass phase extending over ferromagnetic islands. A genuine thermoremnant magnetization (TRM) measurement indicates that the memory of the specific spin configurations imprinted at temperatures between Tcl and Tcu during the field-cooled (FC) aging protocol can be recalled when the system is re-heated at a constant heating rate. The zero-field cooled (ZFC) and TRM magnetization is examined in a series of heating and reheating process. The magnetization shows both characteristic memory and rejuvenation effects. The time (t) dependence of the relaxation rate SZFC(t)=(1/H)dMZFC(t)/d t after the ZFC aging protocol with a wait time tw, exhibits two peaks at characteristic times tcr1 and tcr2 between Tcl and Tcu. An aging process is revealed as the strong tw dependence of tcr2. The observed aging and memory effect is discussed in terms of the droplet model.

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