Quantum (Aug 2024)

Non-Markovianity in High-Dimensional Open Quantum Systems using Next-generation Multicore Optical Fibers

  • Santiago Rojas-Rojas,
  • Daniel Martínez,
  • Kei Sawada,
  • Luciano Pereira,
  • Stephen P. Walborn,
  • Esteban S. Gómez,
  • Nadja K. Bernardes,
  • Gustavo Lima

DOI
https://doi.org/10.22331/q-2024-08-12-1436
Journal volume & issue
Vol. 8
p. 1436

Abstract

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With the advent of quantum technology, the interest in communication tasks assisted by quantum systems has increased both in academia and industry. Nonetheless, the transmission of a quantum state in real-world scenarios is bounded by environmental noise, so that the quantum channel is an open quantum system. In this work, we study a high-dimensional open quantum system in a multicore optical fiber by characterizing the environmental interaction as quantum operations corresponding to probabilistic phase-flips. The experimental platform is currently state-of-the-art for quantum information processing with multicore fibers. At a given evolution stage we observe a non-Markovian behaviour of the system, which is demonstrated through a proof-of-principle implementation of the Quantum Vault protocol. A better understanding of phase-noise in multicore fibers will improve several real-world communication protocols, since they are a prime candidate to be adopted in future telecom networks.