English

Light storage for one second at room temperature

Quantum Physics 2018-07-31 v2

Abstract

Light storage, the controlled and reversible mapping of photons onto long-lived states of matter [1], enables memory capability in optical quantum networks [2-6]. Prominent storage media are warm alkali gases due to their strong optical coupling and long-lived spin states [7,8]. In a dense gas, the random atomic collisions dominate the lifetime of the spin coherence, limiting the storage time to a few milliseconds [9,10]. Here we present and experimentally demonstrate a storage scheme that is insensitive to spin-exchange collisions, thus enabling long storage times at high atomic densities. This unique property is achieved by mapping the light field onto spin orientation within a decoherence-free subspace of spin states. We report on a record storage time of 1 second in cesium vapor, a 100-fold improvement over existing storage schemes. Furthermore, our scheme lays the foundations for hour-long quantum memories using rare-gas nuclear spins.

Keywords

Cite

@article{arxiv.1710.06844,
  title  = {Light storage for one second at room temperature},
  author = {Or Katz and Ofer Firstenberg},
  journal= {arXiv preprint arXiv:1710.06844},
  year   = {2018}
}
R2 v1 2026-06-22T22:18:29.166Z