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The low energy of the isomeric state of the radionuclide thorium-229 (^229Th) makes it highly promising for applications in fundamental physics, precision metrology, and quantum technologies. The direct access to the isomer state from the ground state has attracted significant attention. Here, we propose a tabletop approach utilizing the scanning tunneling microscope technique to induce excitation of a single ^229Th nucleus. With achievable parameters, the isomeric excitation rate is advantageous over existing methods, allowing the excitation and control of ^229Th on the single-nucleus level. It offers the unique potential of exciting and detecting subsequent decay from a single nucleus, providing a new direction for future experimental investigation of the ^229Th isomeric state.
Zhang et al. (Tue,) studied this question.