TY - GEN
T1 - Distribution and Purification of Entanglement States in Quantum Networks
AU - Fan, Xiaojie
AU - Yang, Yukun
AU - Gupta, Himanshu
AU - Ramakrishnan, C. R.
N1 - Publisher Copyright:
© 2025 IEEE.
PY - 2025
Y1 - 2025
N2 - We consider problems of distributing high-fidelity entangled states across nodes of a quantum network. We consider a repeater-based network architecture with entanglement swapping (fusion) operations for generating long-distance entanglements, and purification operations that produce high-fidelity states from several lower-fidelity states. The contributions of this paper are two-fold: First, while there have been several works on fidelity-aware routing and incorporating purification into routing for generating EPs, this paper presents the first algorithms for optimal solutions to the high-fidelity EP distribution problem. We provide a dynamic programming algorithm for generating the optimal tree of operations to produce a high-fidelity EP, and an LP-based algorithm for generating an optimal collection of trees. Second, following the EP algorithms, this paper presents the first algorithms for the high-fidelity GHZ-state distribution problem and characterizes its optimality. We evaluate our techniques via simulations over NetSquid, a quantum network simulator.
AB - We consider problems of distributing high-fidelity entangled states across nodes of a quantum network. We consider a repeater-based network architecture with entanglement swapping (fusion) operations for generating long-distance entanglements, and purification operations that produce high-fidelity states from several lower-fidelity states. The contributions of this paper are two-fold: First, while there have been several works on fidelity-aware routing and incorporating purification into routing for generating EPs, this paper presents the first algorithms for optimal solutions to the high-fidelity EP distribution problem. We provide a dynamic programming algorithm for generating the optimal tree of operations to produce a high-fidelity EP, and an LP-based algorithm for generating an optimal collection of trees. Second, following the EP algorithms, this paper presents the first algorithms for the high-fidelity GHZ-state distribution problem and characterizes its optimality. We evaluate our techniques via simulations over NetSquid, a quantum network simulator.
KW - entanglement distribution
KW - purification
KW - quantum network
UR - https://www.scopus.com/pages/publications/105007887669
U2 - 10.1109/QCNC64685.2025.00020
DO - 10.1109/QCNC64685.2025.00020
M3 - Conference contribution
AN - SCOPUS:105007887669
T3 - Proceedings - 2025 International Conference on Quantum Communications, Networking, and Computing, QCNC 2025
SP - 74
EP - 82
BT - Proceedings - 2025 International Conference on Quantum Communications, Networking, and Computing, QCNC 2025
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2nd International Conference on Quantum Communications, Networking, and Computing, QCNC 2025
Y2 - 31 March 2025 through 2 April 2025
ER -