EPJ Web of Conferences (Jan 2021)

Analysis of heavy-flavour particles in ALICE with the O2 analysis framework

  • Kučera Vít,
  • Innocenti Gian Michele,
  • Prino Francesco,
  • Rossi Andrea,
  • Grosse-Oetringhaus Jan Fiete,
  • Zardoshti Nima,
  • Dello Stritto Luigi,
  • Zampolli Chiara,
  • Catalano Fabio,
  • Zhang Biao,
  • Jacazio Nicolo,
  • Faggin Mattia,
  • Palasciano Antonio,
  • Colamaria Fabio,
  • Mazzilli Marianna,
  • Thomas Deepa,
  • Spijkers Rik,
  • Zhu Jianhui,
  • Zanoli Henrique

DOI
https://doi.org/10.1051/epjconf/202125103064
Journal volume & issue
Vol. 251
p. 03064

Abstract

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Precise measurements of heavy-flavour hadrons down to very low pT represent the core of the physics program of the upgraded ALICE experiment in Run 3 [1]. These physics probes are characterised by a very small signal-to-background ratio requiring very large statistics of minimum-bias events. In Run 3, ALICE is expected to collect up to 13 nb−1 of lead–lead collisions, corresponding to about 1 × 1011 minimum-bias events. In order to analyse this unprecedented amount of data, which is about 100 times larger than the statistics collected in Run 1 and Run 2, the ALICE collaboration is developing a complex analysis framework that aims at maximising the processing speed and data volume reduction [2]. In this paper, the strategy of reconstruction, selection, skimming, and analysis of heavy-flavour events for Run 3 will be presented. Some preliminary results on the reconstruction of charm mesons and baryons will be shown and the prospects for future developments and optimisation discussed.