Effects of Fermi statistics on vibrationally-excited Rydberg molecules
Abstract
Rydberg molecules, composed of one or many ground-state atoms bound to a nearby Rydberg atom by the scattering of the Rydberg electron, are novel tools for probing interparticle correlations due to the n2-scaling of the Rydberg wave function length scale. We present progress towards observing the effects of Fermi statistics on the photoexcitation rates of vibrationally-excited Rydberg molecules. Focusing on the Rydberg dimers (one ground-state atom and one Rydberg atom), we compare the excitation rates from spin-polarized and unpolarized cold gases of fermionic 87Sr (I = 9 / 2) to the ground and vibrationally-excited dimer states. Due to the localization of these vibrational states on length scales comparable to and smaller than the de Broglie wavelength, we expect Fermi statistics to modify these excitation rates when comparing the spin-polarized and unpolarized samples and we present spectra at n 30 - 40 towards that goal.
Research supported by the AFOSR (FA9550-14-1-0007), the NSF (1600059), the Robert A. Welch Foundation (C-0734 and C-1844), FWF (Austria) (FWF-SFB041 ViCoM and FWF-SFB049 NextLite), NSERC, ITAMP.- Publication:
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APS Division of Atomic, Molecular and Optical Physics Meeting Abstracts
- Pub Date:
- May 2019
- Bibcode:
- 2019APS..DMPW05003D