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Ultralong-Range Rydberg Molecules in a Divalent-Atomic System

We report the creation of ultralong-range Sr$_2$ molecules comprising one ground-state $5s^2$ $^1S_0$ atom and one atom in a $5sns$ $^3S_1$ Rydberg state for $n$ ranging from 29 to 36. Molecules are created in a trapped ultracold atomic gas using two-photon excitation near resonant with the $5s5p$ $^3P_1$ intermediate state, and their formation is detected through ground-state atom loss from the trap. The observed molecular binding energies are fit with the aid of first-order perturbation theory that utilizes a Fermi pseudopotential with effective $s$-wave and $p$-wave scattering lengths to describe the interaction between an excited Rydberg electron and a ground-state Sr atom.

preprint2015arXivOpen access
B. J. DeSalvoJ. A. AmanF. B. DunningT. C. KillianH. R. SadeghpourS. YoshidaJ. Burgdörfer
physics.atom-ph
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B. J. DeSalvoJ. A. AmanF. B. DunningT. C. KillianH. R. SadeghpourS. YoshidaJ. Burgdörfer

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