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Fiber Loop Quantum Buffer for Photonic Qubits

Quantum Physics 2024-08-22 v1

Abstract

We report a fiber loop quantum buffer based on a low-loss 2×\times2 switch and a unit delay made of a fiber delay line. We characterize the device by using a two-photon polarization entangled state in which one photon of the entangled photon pair is stored and retrieved at a repetition rate up to 78kHz\,\rm{kHz}. The device, which enables integer multiples of a unit delay, can store the qubit state in a unit of fiber delay line up to 5.4km\,\rm{km} and the number of loop round-trips up to 3. Furthermore, we configure the device with other active elements to realize integer multiplies and divider of a unit delay of a qubit. The quantum state tomography is performed on the retrieved photon and its entangled photon. We obtain a state fidelity >94%>94\% with a maximum storage time of 52μsec\,\mu\rm{sec}. To further characterize the storing and retrieving processes of the device, we perform entanglement-assisted quantum process tomography on the buffered qubit state. The process fidelity of the device is >> 0.98. Our result implies that the device preserves the superposition and entanglement of a qubit state from a two-photon polarization-entangled state. This is a significant step towards facilitating applications in optical asynchronous transfer mode (ATM) based quantum networks.

Keywords

Cite

@article{arxiv.2309.07987,
  title  = {Fiber Loop Quantum Buffer for Photonic Qubits},
  author = {Kim Fook Lee and Gamze Gul and Zhao Jim and Prem Kumar},
  journal= {arXiv preprint arXiv:2309.07987},
  year   = {2024}
}

Comments

12 pages, 5 figures

R2 v1 2026-06-28T12:22:01.863Z