Influence of baryon number, strangeness, and electric charge fluctuations at the LHC

Influence of baryon number, strangeness, and electric charge fluctuations at the LHC

At the Large Hadron Collider it is possible to generate BSQ (baryon, strangeness, and electric) charge density fluctuations from gluon splittings into quark/anti-quark pairs, generated within the ICCING model. In this work, we implement BSQ charge dynamics in a fully integrated framework. We propaga...

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Veröffentlicht in:arXiv.org 2023-12
Hauptverfasser: Plumberg, Christopher, Almaalol, Dekrayat, Dore, Travis, Salinas San Martin, Jordi, Carzon, Patrick, Mroczek, Debora, Yao, Nanxi, Serenone, Willian M, Spychalla, Lydia, Sievert, Matthew, Noronha-Hostler, Jacquelyn
Format: Artikel
Sprache:eng
Schlagworte:
Baryons
Charge density
Electric charge
Equations of state
Large Hadron Collider
Particle decay
Phase diagrams
Quantum chromodynamics
Quarks
Strangeness
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Zusammenfassung:At the Large Hadron Collider it is possible to generate BSQ (baryon, strangeness, and electric) charge density fluctuations from gluon splittings into quark/anti-quark pairs, generated within the ICCING model. In this work, we implement BSQ charge dynamics in a fully integrated framework. We propagate these conserved charges within an upgraded version of the v-USPhydro hydrodynamic model, which conserves the BSQ densities exactly. Our hydrodynamic simulation uses the full 4D equation of state \(\left\{T,\mu_B,\mu_S,\mu_Q\right\}\) from lattice Quantum Chromodynamics and includes decays from the Particle Data Group 2016+. We study the dynamical trajectories of fluid cells passing through the QCD phase diagram. We discuss future applications for this new framework.
ISSN:2331-8422