Resonance nuclear excitation of the 229Th nucleus via electronic bridge process in Th~II
Abstract
The 8.4 eV transition in the 229Th nucleus is the basis for a high-precision nuclear clock with exceptional sensitivity to new physics effects. We have identified several cases in the Th+ ion where electronic excitations closely resonate with the nuclear excitation, with the smallest energy difference being = -0.09 cm-1. We investigate the electronic bridge process, in which nuclear excitation is induced via electronic transitions, and demonstrate that a proper selection of laser frequencies can lead to a dramatic enhancement of this effect. Additionally, we show that the interaction with electrons significantly shortens the lifetime of the nuclear excited state.
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