The ²²⁹Th nucleus has a unique transition at only 8 eV which could be used for a novel nuclear clock. We investigate theoretically the prospects of driving this electric dipole-forbidden transition with vortex light beams carrying orbital angular momentum. Numerical results are presented for two experimental configurations which are promising for the design of the planned nuclear clock: a trapped ion setup and a large ensemble of nuclei doped into CaF₂ crystals which are transparent in the frequency range of the nuclear transition. We discuss the feasibility of the vortex beam nuclear excitation and compare the excitation features with the case of plane wave beams. Differences between the two scenarios and the specific advantages of vortex beams are limited by challenging experimental requirements for pitch angle and field intensity.
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Project title:
Thorium nuclear clocks for fundamental tests of physics: 856415 (European Commission) Coherent Optical Metrology Beyond Dipole-Allowed Transitions: F 1004 (FWF - Österr. Wissenschaftsfonds)
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Research Areas:
Quantum Metrology and Precision Measurements: 100%
