C. Solaro, S. Meyer, K. Fisher, M. V. DePalatis, M. Drewsen,
https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.253601
We demonstrate the use of a femtosecond frequency comb to coherently drive stimulated Raman transitions between terahertz-spaced atomic energy levels. More specifically, we address the 3d 2D3/2and 3d 2D5/2 fine structure levels of a single trapped 40Ca+ ion and spectroscopically resolve the transition frequency to be νD=1,819,599,021,534±8 Hz. The achieved accuracy is nearly a factor of five better than the previous best Raman spectroscopy, and is currently limited by the stability of our atomic clock reference. Furthermore, the population dynamics of frequency-comb-driven Raman transitions can be fully predicted from the spectral properties of the frequency comb, and Rabi oscillations with a contrast of 99.3(6)% and millisecond coherence time have been achieved. Importantly, the technique can be easily generalized to transitions in the sub-kHz to tens of THz range and should be applicable for driving, e.g., spin-resolved rovibrational transitions in molecules and hyperfine transitions in highly charged ions.
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