English

Geometric Ramsey Interferometry with a Tripod Scheme

Quantum Physics 2024-05-17 v2 Atomic Physics

Abstract

Ramsey interferometry is a key technique for precision spectroscopy and to probe the coherence of quantum systems. Typically, an interferometer is constructed using two quantum states and involves a time-dependent interaction with two short resonant electromagnetic pulses. Here, we explore a different type of Ramsey interferometer where we perform quantum state manipulations by geometrical means, eliminating the temporal dependence of the interaction. We use a resonant tripod scheme in ultracold strontium atoms where the interferometric operation is restricted to a two-dimensional dark-state subspace in the dressed-state picture. The observed interferometric phase accumulation is due to an effective geometric scalar term in the dark-state subspace, which remarkably does not vanish during the free evolution time when the light-matter interaction is turned off. This study opens the door for more robust interferometers operating on multiple input-output ports.

Keywords

Cite

@article{arxiv.2309.10192,
  title  = {Geometric Ramsey Interferometry with a Tripod Scheme},
  author = {Chetan Sriram Madasu and Ketan Damji Rathod and Chang Chi Kwong and David Wilkowski},
  journal= {arXiv preprint arXiv:2309.10192},
  year   = {2024}
}

Comments

4 figures, 6 pages including references

R2 v1 2026-06-28T12:25:29.892Z