A network of single strontium atoms

POSTER

Abstract

Rydberg-atom-based simulation and computing rely heavily upon the precise manipulation and control of single atoms, in which optical tweezers play a central role [1]. Bosonic strontium is an outstanding candidate for several areas of research, such as atom interferometry, optical frequency standards, tests of fundamental physics, as well as quantum simulation and computation. We present our research on developing a quantum network of single strontium atoms using a trap loading technique with large optical access.

*W.M. Keck Foundation

Publication: [1] M. Gaudesius and J. Lee et al, Phys. Rev. A (accepted), DOI: https://doi.org/10.1103/n8p5-b876.

Presenters

  • Jumin Lee

    • University of Oklahoma

Authors

  • Jumin Lee

    • University of Oklahoma

  • Jason Gordon

    • University of Oklahoma

  • Luke Aaron Kraft

    • University of Oklahoma

  • Marius Gaudesius

    • University of Oklahoma

  • Grant W Biedermann

    • University of Oklahoma