Decay of the low-energy nuclear 229mTh isomer via atomic Rydberg states

Abstract

In the paper, a unique process of the decay of the 229mTh(3/2+,8.28 0.17 eV) low energy nuclear isomer via the internal conversion (IC) channel on Rydberg states is considered for the first time. The Rydberg atom 229mTh++e-Ry is a unique object where IC is possible exclusively on the Rydberg electron e-Ry. It is shown that in the 229mTh4++e-Ry system a) IC on the electron states with relatively small values of the principal quantum number n and the orbital moment l is practically completely suppressed, b) IC probability, WIC, on the ns1/2(r) states is proportional to |ns1/2(0)|2 and can be related with the energy of the hyperfine interaction of the Rydberg electron with the nucleus, c) WIC decreases rapidly with the increase of n in the range from 10 to 50, and in the range n 150 WIC changes as Const/n3 typical for hydrogen-like ions, d) at n 10--30, WIC as a function of l has a characteristic "knee" between l=3 and l=4, i.e. a three order of magnitude decrease of WIC due to the qualitative change in the ratio between the centrifugal and shielding potentials.