English

Enhancing spin squeezing using soft-core interactions

Quantum Physics 2022-08-04 v1 Atomic Physics
Authors: Jeremy T. Young , Sean R. Muleady , Michael A. Perlin , Adam M. Kaufman , Ana Maria Rey
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Abstract

We propose a new protocol for preparing spin squeezed states in controllable atomic, molecular, and optical systems, with particular relevance to emerging optical clock platforms compatible with Rydberg interactions. By combining a short-ranged, soft-core potential with an external drive, we can transform naturally emerging Ising interactions into an XX spin model while opening a many-body gap. The gap helps maintain the system within a collective manifold of states where metrologically useful spin squeezing can be generated at a level comparable to the spin squeezing generated in systems with genuine all-to-all interactions. We examine the robustness of our protocol to experimentally-relevant decoherence and show favorable performance over typical protocols lacking gap protection.

Keywords

quantum spin systems spin-orbit coupling rydberg atoms

Cite

@article{arxiv.2208.01869,
  title  = {Enhancing spin squeezing using soft-core interactions},
  author = {Jeremy T. Young and Sean R. Muleady and Michael A. Perlin and Adam M. Kaufman and Ana Maria Rey},
  journal= {arXiv preprint arXiv:2208.01869},
  year   = {2022}
}

Comments

5+4 pages, 3+3 figures

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