Rb-Tm repeater chain performance simulation, code underlying the publication: Hybrid Quantum Repeaters with Ensemble-based Quantum Memories and Single-spin Photon Transducers (dataset)

Rb-Tm repeater chain performance simulation, code underlying the publication: Hybrid Quantum Repeaters with Ensemble-based Quantum Memories and Single-spin Photon Transducers

doi:10.4121/33eab79d-1d4a-45a0-b32b-041b00117993.v3

Datacite citation style:

Gu, Fenglei (2024): Rb-Tm repeater chain performance simulation, code underlying the publication: Hybrid Quantum Repeaters with Ensemble-based Quantum Memories and Single-spin Photon Transducers. Version 3. 4TU.ResearchData. dataset. https://doi.org/10.4121/33eab79d-1d4a-45a0-b32b-041b00117993.v3

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Dataset

choose version: version 4 - 2024-10-07 (latest)

version 3 - 2024-09-20

version 2 - 2024-04-22 version 1 - 2024-01-25

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keywords

quantum computing, Quantum repeater chain simulation, Rubidium atom, Thulium-dopped crystal quantum memory

time coverage

2020/10/01-2024/01/23

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CC0

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Codes underlying the publication: "Hybrid Quantum Repeaters with Ensemble-based Quantum Memories and Single-spin Photon Transducers"

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by Fenglei Gu

This is a piece of code simulating the operating process of the Rb-Tm repeater chain setup introduced in the paper. It uses the Monte-Carlo method to simulate the probabilistic processes of element entanglement generation, entanglement transfer, and entanglement swapping as the repeater operations. Finally, it returns the average secret key rate as the metric for the performance of the repeater chain setup.

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