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Optomechanical realization of the bosonic Kitaev chain

Author

Listed:
  • Jesse J. Slim

    (AMOLF
    University of Queensland)

  • Clara C. Wanjura

    (Max Planck Institute for the Science of Light)

  • Matteo Brunelli

    (University of Basel)

  • Javier Pino

    (AMOLF
    ETH Zürich)

  • Andreas Nunnenkamp

    (University of Vienna)

  • Ewold Verhagen

    (AMOLF)

Abstract

The fermionic Kitaev chain is a canonical model featuring topological Majorana zero modes1. We report the experimental realization of its bosonic analogue2 in a nano-optomechanical network, in which the parametric interactions induce beam-splitter coupling and two-mode squeezing among the nanomechanical modes, analogous to hopping and p-wave pairing in the fermionic case, respectively. This specific structure gives rise to a set of extraordinary phenomena in the bosonic dynamics and transport. We observe quadrature-dependent chiral amplification, exponential scaling of the gain with system size and strong sensitivity to boundary conditions. All these are linked to the unique non-Hermitian topological nature of the bosonic Kitaev chain. We probe the topological phase transition and uncover a rich dynamical phase diagram by controlling interaction phases and amplitudes. Finally, we present an experimental demonstration of an exponentially enhanced response to a small perturbation3,4. These results represent the demonstration of a new synthetic phase of matter whose bosonic dynamics do not have fermionic parallels, and we have established a powerful system for studying non-Hermitian topology and its applications for signal manipulation and sensing.

Suggested Citation

  • Jesse J. Slim & Clara C. Wanjura & Matteo Brunelli & Javier Pino & Andreas Nunnenkamp & Ewold Verhagen, 2024. "Optomechanical realization of the bosonic Kitaev chain," Nature, Nature, vol. 627(8005), pages 767-771, March.
    • Handle: RePEc:nat:nature:v:627:y:2024:i:8005:d:10.1038_s41586-024-07174-w
    DOI: 10.1038/s41586-024-07174-w
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