Extended Rydberg Lifetimes in a Cryogenic Atom Array
Atomic Physics
2026-02-06 v1 Quantum Gases
Quantum Physics
Abstract
We report on the realization of a Cs optical tweezer array in a cryogenic blackbody radiation (BBR) environment. By enclosing the array within a 4K radiation shield, we measure long Rydberg lifetimes, up to s for the Rydberg state, a factor of 3.3(3) longer than the room-temperature value. We employ single-photon coupling for coherent manipulation of the ground-Rydberg qubit. We measure a small differential dynamic polarizability of the transition, beneficial for reducing dephasing due to light intensity fluctuations. Our results pave the path for advancing neutral-atom two-qubit gate fidelities as their error budgets become increasingly dominated by relaxation of the ground-Rydberg qubit.
Keywords
Cite
@article{arxiv.2602.05959,
title = {Extended Rydberg Lifetimes in a Cryogenic Atom Array},
author = {Junlan Jin and Yue Shi and Youssef Aziz Alaoui and Jingxin Deng and Yukai Lu and Jeff D. Thompson and Waseem S. Bakr},
journal= {arXiv preprint arXiv:2602.05959},
year = {2026}
}
Comments
6 pages, 4 figures