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This study demonstrates a resource-efficient quantum secret sharing protocol for secure multi-user quantum networks. The experiment shows high secure key rates, independent of the number of users, paving the way for practical applications.

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Area of Science:

  • Quantum Information Science
  • Quantum Cryptography
  • Quantum Communication Networks

Background:

  • Source-independent quantum secret sharing (SI QSS) is crucial for secure multi-user quantum networks.
  • Implementing SI QSS is challenging due to the complexity of generating and distributing multipartite entangled states.

Purpose of the Study:

  • To experimentally demonstrate a resource-efficient SI QSS protocol.
  • To validate the protocol's performance in a multi-user quantum network setting.

Main Methods:

  • Utilized high-fidelity polarization-entangled photon pairs.
  • Implemented a star topology for a three-user network.
  • Employed a post-measurement method for resource efficiency.

Main Results:

  • Achieved secure key rates of 21.18, 4.69, and 1.71 kbps for a three-user network with varying channel losses.
  • Obtained secure key rates of 6.97, 6.46, and 5.88 kbps for three-, four-, and five-user scenarios with equal channel loss.
  • Demonstrated that the secure key rate is independent of the number of users.

Conclusions:

  • The experimental demonstration validates the feasibility of the resource-efficient SI QSS protocol.
  • The protocol's performance, particularly its key rate independence from user count, supports its potential for large-scale deployment in multi-user quantum networks.