Activity measurement of 60Fe through the decay of 60mCo and confirmation of its half-life

Abstract

The half-life of the neutron-rich nuclide, has been in dispute in recent years. A measurement in 2009 published a value of (2.62 0.04)×106 years, almost twice that of the previously accepted value from 1984 of (1.49 0.27)×106 years. This longer half-life was confirmed in 2015 by a second measurement, resulting in a value of (2.50 0.12)×106 years. All three half-life measurements used the grow-in of the γ-ray lines in from the decay of the ground state of 60Co (t1/2=5.27 years) to determine the activity of a sample with a known number of atoms. In contrast, the work presented here measured the activity directly via the 58.6 keV γ-ray line from the short-lived isomeric state of 60Co (t1/2=10.5 minutes), thus being independent of any possible contamination from long-lived 60gCo. A fraction of the material from the 2015 experiment with a known number of atoms was used for the activity measurement, resulting in a half-life value of (2.72 0.16)×106 years, confirming again the longer half-life. In addition, / isotopic ratios of samples with two different dilutions of this material were measured with Accelerator Mass Spectrometry (AMS) to determine the number of atoms. Combining this with our activity measurement resulted in a half-life value of (2.69 0.28)× 106 years, again agreeing with the longer half-life.