Light: Science & Applications (Oct 2024)

Multi-particle quantum walks on 3D integrated photonic chip

  • Wen-Hao Zhou,
  • Xiao-Wei Wang,
  • Ruo-Jing Ren,
  • Yu-Xuan Fu,
  • Yi-Jun Chang,
  • Xiao-Yun Xu,
  • Hao Tang,
  • Xian-Min Jin

DOI
https://doi.org/10.1038/s41377-024-01627-7
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 10

Abstract

Read online

Abstract Quantum walks provide a speed-up in computational power for various quantum algorithms and serve as inspiration for the construction of complex graph representations. Many pioneering works have been dedicated to expanding the experimental state space and the complexity of graphs. However, these experiments are mostly limited to small experimental scale, which do not reach a many-body level and fail to reflect the multi-particle quantum interference effects among non-adjacent modes. Here, we present a quantum walk with three photons on a two-dimensional triangular lattice, which is mapped to a 19 × 19 × 19 high-dimensional state space and constructs a complex graph with 6859 nodes and 45,486 edges. By utilizing the statistical signatures of the output combinations and incorporating machine learning techniques, we successfully validate the nonclassical properties of the experiment. Our implementation provides a paradigm for exponentially expanding the state space and graph complexity of quantum walks, paving the way for surmounting the classical regime in large-scale quantum simulations.