Realizing Site-Selective Spin-Spin Interactions via Multicolor Rydberg Dressing

POSTER

Abstract

Arrays of highly excited Rydberg atoms has emerged as a powerful quantum simulation platform. To date, it is still challenging to realize an individually programable spin-spin interaction, which is highly desirable for quantum simulation. Recently, we introduce an approach that makes it possible to implement fully controllable effective spin interactions. We show that Rydberg-dressing with multicolor laser fields opens up distinct interaction channels that enable complete site selective control of the induced interactions and favorable scaling with respect to decoherence. We apply this method to synthesize gauge fields for Rydberg excitations, where the effective magnetic fluxes can be tuned to an arbitrary pattern.

*This work was supported by the National Key R&D Program of China (Grants No. 2018YFA0306504 and No. 2018YFA0306503), the National Natural Science Foundation of China (NSFC) (Grant No. 12174214), and by the Innovation Program for Quantum Sci- ence and Technology (Project No. 2-9-4). F.Y., K.M., and T.P. acknowledge the support from Carlsberg Foundation through the "Semper Ardens" Research Project QCooL and from the Danish National Research Foundation (DNRF) through the Center of Excellence "CCQ" (Grant No. DNRF156).

Publication: X. Wu, F. Yang, S. Yang, K. Mølmer, T. Pohl, M. K. Tey, and L. You, Manipulating synthetic gauge fluxes via multicolor dressing of rydberg-atom arrays, Physical Review Research 4, L032046 (2022).

Presenters

  • Xiaoling Wu

    • Tsinghua University

Authors

  • Xiaoling Wu

    • Tsinghua University

  • Fan Yang

    • Aarhus University

  • Shuo Yang

    • Tsinghua University

  • Klaus Molmer

    • Aarhus University

  • Thomas Pohl

    • Aarhus University

  • Meng Khoon Tey

    • Tsinghua University

  • Li You

    • Tsinghua University