cff-version: 1.2.0
abstract: "<p>Code and data for the results shown in the paper "Satellite-assisted communication with single photon sources and atomic memories". This physics paper presents a setup for space-based quantum networks based on cavity-coupled individually trapped alkali atoms. This hardware has demonstrated the capability of generating atom-photon entanglement, near-deterministic Bell measurements through Rydberg mediated atom-atom interaction, and long-lived qubit states. We show that high-rate entanglement can be achieved over intercontinental distances with orders of magnitude fewer memory modes than previous architecture for similar performance metrics.</p><p><br></p><p>The dataset includes the Python code for the model presented in the paper, as well as the simulation data used in the figures of the manuscript.</p><p><br></p><p>Please see the README.txt file for intructions on how to reproduce the figures.</p>"
authors:
  - family-names: Dominguez Tubio
    given-names: Vicky
  - family-names: Badás Aldecocea
    given-names: Mario
  - family-names: van Dam
    given-names: Janice
  - family-names: Sørensen
    given-names: Anders S.
  - family-names: Borregaard
    given-names: Johannes
title: "Data underlying the publication &#34;Satellite-assisted quantum communication with single photon sources and atomic memories&#34;."
keywords:
version: 1
identifiers:
  - type: doi
    value: 10.4121/61635423-89d3-46cb-b9bc-bc06f158b9a5.v1
license: CC BY 4.0
date-released: 2024-11-13