Replication data for: Multipartite Entanglement Distribution using a Central Quantum-Network Node
doi:10.4121/19235937.v2
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doi: 10.4121/19235937
doi: 10.4121/19235937
Datacite citation style:
Avis, Guus; Rozpedek, F.D. (Filip); Stephanie Wehner (2022): Replication data for: Multipartite Entanglement Distribution using a Central Quantum-Network Node. Version 2. 4TU.ResearchData. dataset. https://doi.org/10.4121/19235937.v2
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version 1 - 2022-03-07
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This is the data corresponding to the paper Multipartite Entanglement Distribution using a Central Quantum-Network Node by Guus Avis, Filip Rozpędek and Stephanie Wehner.
It contains the results of simulations of the distribution of GHZ states in a symmetric star-shaped network, where the central node of the network is either a "factory node" or a "2-switch". The factory node distributes GHZ states by preparing them locally and teleporting them to the end nodes, while the 2-switch assists the end nodes in creating Bell states between them, on which the end nodes then perform fusion operations to create the target GHZ state.
All data is contained by CSV files. Apart from the data itself, this repository also contains all the scripts used to create the plots shown in the paper, and info about what file contains what data.
All simulations were performed using the quantum-network simulator NetSquid. The code used to run the simulations is contained here: https://gitlab.com/softwarequtech/netsquid-snippets/netsquid-factory .
For more details, see the README file.
It contains the results of simulations of the distribution of GHZ states in a symmetric star-shaped network, where the central node of the network is either a "factory node" or a "2-switch". The factory node distributes GHZ states by preparing them locally and teleporting them to the end nodes, while the 2-switch assists the end nodes in creating Bell states between them, on which the end nodes then perform fusion operations to create the target GHZ state.
All data is contained by CSV files. Apart from the data itself, this repository also contains all the scripts used to create the plots shown in the paper, and info about what file contains what data.
All simulations were performed using the quantum-network simulator NetSquid. The code used to run the simulations is contained here: https://gitlab.com/softwarequtech/netsquid-snippets/netsquid-factory .
For more details, see the README file.
history
- 2022-03-07 first online
- 2022-03-11 published, posted
publisher
4TU.ResearchData
funding
- Quantum Software Consortium (grant code 024.003.037) [more info...] Dutch Research Council
- W911NF-16-1-0349
- OMA-1936118
- EEC-1941583
- OMA-2137642
organizations
QuTech, Delft University of TechnologyKavli Institute of Nanoscience, Delft University of Technology
Pritzker School of Molecular Engineering, University of Chicago
DATA
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