Transition Strength Measurements to Guide Magic Wavelength Selection in Optically Trapped Molecules

Transition Strength Measurements to Guide Magic Wavelength Selection in Optically Trapped Molecules

Optical trapping of molecules with long coherence times is crucial for many protocols in quantum information and metrology. However, the factors that limit the lifetimes of the trapped molecules remain elusive and require improved understanding of the underlying molecular structure. Here we show tha...

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Veröffentlicht in:Physical review letters 2020-10, Vol.125 (15), p.1-153001, Article 153001
Hauptverfasser: Leung, K. H., Majewska, I., Bekker, H., Lee, C.-H., Tiberi, E., Kondov, S. S., Moszynski, R., Zelevinsky, T.
Format: Artikel
Sprache:eng
Schlagworte:
Molecular structure
Optical trapping
Potential energy
Quantum numbers
Quantum phenomena
Vibrational states
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Zusammenfassung:Optical trapping of molecules with long coherence times is crucial for many protocols in quantum information and metrology. However, the factors that limit the lifetimes of the trapped molecules remain elusive and require improved understanding of the underlying molecular structure. Here we show that measurements of vibronic line strengths in weakly and deeply bound 88Sr2 molecules, combined with ab initio calculations, allow for unambiguous identification of vibrational quantum numbers. This, in turn, enables the construction of refined excited potential energy curves, informing the selection of magic wavelengths that facilitate long vibrational coherence. We demonstrate Rabi oscillations between far-separated vibrational states that persist for nearly 100 ms.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.125.153001