Ontology type: schema:ScholarlyArticle
1977-09
AUTHORSA. G. Bibiloni, M. C. Caracoche, A. R. Lopez García, J. A. Martinez, L. A. Mendoza Zelis, R. C. Mercader, A. F. Pasquevich
ABSTRACTThe hyperfine interaction of140Ce in nickel has been investigated by the time-differential perturbed-angular-correlation technique (TDPAC). The probe was produced by isotope separator implantation of the fission product140Xe, the β- decay chain of which finally populates excited states of140Ce. Different spin rotation spectra were observed before and after an 8 h annealing at 415°C. The analysis of the spectra led to the conclusion that the Ce ions were in the diamagnetic 4+ state. The dominant contributions to the hyperfine interaction are two different magnetic hyperfine fields: |Hhf1|=385±7 kOe and |Hhf2|=276±12 kOe.Hhf1 disappears after annealing. The fraction of nuclei which observeHhf2 is increased by the annealing procedure from 16% to 75%. It is assumed thatHhf1 is the hyperfine field of CeNi in an unperturbed substitutional site andHhf2 is attributed to Ce ions which have trapped a single vacancy. More... »
PAGES381-389
http://scigraph.springernature.com/pub.10.1007/bf01021708
DOIhttp://dx.doi.org/10.1007/bf01021708
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