Cosmology from Strong Interactions

Andrea Addazi; Torbj\"orn Lundberg; Antonino Marcian\`o; Roman; Pasechnik; Michal \v{S}umbera

arXiv:2204.02950·hep-ph·September 12, 2022

Cosmology from Strong Interactions

Andrea Addazi, Torbj\"orn Lundberg, Antonino Marcian\`o, Roman, Pasechnik, Michal \v{S}umbera

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TL;DR

This paper explores how the complex behavior of quarks and gluons in Quantum Chromodynamics influences cosmological phenomena, highlighting the importance of strong interactions in the early universe and astrophysics.

Contribution

It discusses the implications of strongly coupled QCD dynamics on cosmology and astrophysics, connecting collider data with cosmic phenomena.

Findings

01

Strong interactions impact early universe physics.

02

Collective motion of quarks and gluons affects cosmological models.

03

QCD phenomena have observable astrophysical consequences.

Abstract

The wealth of theoretical and phenomenological information about Quantum Chromodynamics at short and long distances collected so far in major collider measurements has profound implications in cosmology. We provide a brief discussion on the major implications of the strongly coupled dynamics of quarks and gluons as well as on effects due to their collective motion on the physics of the early universe and in astrophysics.

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