English

Control of spatial correlations between Rydberg excitations using rotary echo

Atomic Physics 2017-04-05 v1

Abstract

We manipulate correlations between Rydberg excitations in cold atom samples using a rotary-echo technique. The correlations are due to interactions between the Rydberg atoms. In the rotary-echo excitation sequence, the phase of the excitation pulse is flipped at a selected time during the pulse. We measure the resultant change in the spatial pair correlation function of the excitations via direct position-sensitive atom imaging. For zero detuning of the lasers from the interaction-free Rydberg-excitation resonance, the pair-correlation value at the most likely nearest-neighbor Rydberg-atom distance is substantially enhanced when the phase is flipped at the middle of the excitation pulse. In this case, the rotary echo eliminates most uncorrelated (un-paired) atoms, leaving an abundance of correlated atom pairs at the end of the sequence. In off-resonant cases, a complementary behavior is observed. We further characterize the effect of the rotary-echo excitation sequence on the excitation-number statistics of the atom sample.

Keywords

Cite

@article{arxiv.1607.01398,
  title  = {Control of spatial correlations between Rydberg excitations using rotary echo},
  author = {N. Thaicharoen and A. Schwarzkopf and G. Raithel},
  journal= {arXiv preprint arXiv:1607.01398},
  year   = {2017}
}
R2 v1 2026-06-22T14:46:23.385Z