Multipartite entanglement distribution in Bell-pair networks without Steiner trees and with reduced gate cost

Autor: Chelluri, S. Siddardha, Khatri, Sumeet, van Loock, Peter
Rok vydání: 2024
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Druh dokumentu: Working Paper
Popis: Multipartite entangled states, particularly Greenberger--Horne--Zeilinger (GHZ) and other graph states, are important resources in multiparty quantum network protocols and measurement-based quantum computing. We consider the problem of generating such states from networks of bipartite entangled (Bell) pairs. Although an optimal protocol (in terms of time steps and consumed Bell pairs) for generating GHZ states in Bell-pair networks has been identified in [Phys. Rev. A 100, 052333 (2019)], it makes use of at most $O(N^2)$ gates, where $N$ is the number of nodes in the network. It also involves solving the NP-hard Steiner tree problem as an initial step. Reducing the gate cost is an important consideration now and into the future, because both qubits and gate operations are noisy. To this end, we present a protocol for producing GHZ states in arbitrary Bell-pair networks that provably requires only $O(N)$ gates, and we present numerical evidence that our protocol indeed reduces the gate cost on real-world network models, compared to prior work. Notably, the gate cost of our protocol depends only on the number of nodes and is independent of the topology of the network. At the same time, our protocol maintains nearly the optimal number of consumed Bell pairs, and it avoids finding a Steiner tree or solving any other computationally hard problem by running in polynomial time with respect to $N$. By considering the number of gates as a figure of merit, our work approaches entanglement distribution from the perspective that, in practice, unlike the traditional information-theoretic setting, local operations and classical communications are not free.
Comment: 11+17 pages, 10 figures. Comments are welcome
Databáze: arXiv
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