TL;DR
This paper discusses how the ALICE experiment at the LHC aims to measure strange particles to understand QCD dynamics, hadronisation, and bulk properties in high-energy collisions.
Contribution
It presents the prospects and methods for measuring strangeness in ALICE, highlighting the experiment's capabilities and expected insights into QCD phenomena.
Findings
ALICE can identify strange hadrons over a wide momentum range.
Strangeness measurements will inform on QCD hadronisation mechanisms.
The experiment's topology and resonance decay detection are key techniques.
Abstract
The study of strangeness production at LHC will bring significant information on the bulk chemical properties, its dynamics and the hadronisation mechanisms involved at these energies. The ALICE experiment will measure strange particles from topology (secondary vertices) and from resonance decays over a wide range in transverse momentum and shed light on this new QCD regime. These motivations will be presented as well as the identification performance of ALICE for strange hadrons.
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