ELECTRON-SPIN-RESONANCE AND LOW-FIELD MICROWAVE-ABSORPTION OF ALKALI-METAL-DOPED C-60 SUPERCONDUCTORS

Alkali-metal-doped C60 superconductors formed by alkali-metal azide de composition show a time evolution for the development of the supercond ucting phase after initial sample preparation which extends over about 15 h for storage at room temperature. This is studied quantitatively for K3C60 and Rb3C60, and differences are seen between these two syste ms which are consistent with redistribution of the alkali metal in the C60 matrix accounting for the time evolution observed. This is suppor ted by separate experiments in which the storage temperature after sam ple preparation is decreased to 77 K. It is interesting that electron spin resonance (ESR) signals are seen in all of these samples in both the superconducting and nonsuperconducting temperature regions and tha t they show time evolutions after sample preparation that are qualitat ively similar to the low-field microwave absorption (LFMA) signals whi ch characterize the development of the superconducting phase. However, a detailed comparison shows differences between the ESR signal change s with time and the development of the superconducting phase which sug gests that the origins of the ESR and LFMA signals are independent. It is interesting that similar ESR changes with storage time are observe d in nonsuperconducting Cs3C60 as are observed in superconducting K3C6 0 and Rb3C60.