Comparative study of the double K-shell-vacancy production in single- and double-electron capture decay

Abstract

We carried out the comparative study of the signal from the decay of double K-shell vacancy production that follows after single K-shell electron capture of 81Kr and double K-shell electron capture of 78Kr. The radiative decay of a the double 1s vacancy state was identified by detecting the triple coincidence of two K X-rays and several Auger electrons in the ECEC-decay, or by detecting two K X-rays and (Auger electrons + ejected K-shell electron) in the EC decay. The number of K-shell vacancies per the K-electron capture, produced as a result of the shake-off process, has been measured for the decay of 81Kr. The probability for this decay was found to be PKK=(5.70.8)×10-5 with a systematic error of ( PKK)syst=0.4 ×10-5. For the 78Kr(22K) decay, the comparative study of single- and double-capture decays allowed us to obtain the signal-to-background ratio to be 15/1. The half-life T1/222K(g.s. → g.s.) = [1.9+1.3-0.7(stat)0.3(syst)]× 1022 y is determined from the analysis of data that have been accumulated over 782 days of live measurements in the experiment that used samples consisted of 170.6 g of 78Kr.