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Parallel distributed quantum gates for dual-species quantum emitters

Quantum Physics 2026-05-04 v1

Abstract

We propose a parallel protocol for implementing distributed nonlocal quantum gates between spatially separated stationary qubits encoded in dual-species quantum emitters (i.e., color-center and superconducting qubits). By utilizing entangled photon pairs with distinct frequencies as a quantum data bus, our approach connects spatially separated devices without requiring quantum frequency conversion or preshared entanglement, while maintaining an always-ready and resource-efficient property for distributed quantum computing and networks. Furthermore, we demonstrate the feasibility of implementing parallel distributed nonlocal quantum gates on multiple pairs of spatially separated qubits using a single high-dimensional entangled photon pair, which directly benefits from the enhanced quantum capacity provided by optical qudit encoding. Our protocol establishes a scalable and practically implementable framework for distributed quantum networks, potentially enabling the development of future large-scale quantum computing architectures.

Keywords

Cite

@article{arxiv.2604.25140,
  title  = {Parallel distributed quantum gates for dual-species quantum emitters},
  author = {Zhihao Xie and Adam Miranowicz and Zhenhua Li and Tao Li and Franco Nori},
  journal= {arXiv preprint arXiv:2604.25140},
  year   = {2026}
}

Comments

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R2 v1 2026-07-01T12:38:22.484Z