QCD contributions to the thermal history of the early Universe
Jose A. R. Cembranos
TL;DR
This paper examines how quantum chromodynamics (QCD) corrections influence the thermal history of the early Universe, affecting precision astrophysical measurements and scalar tensor theories within the Standard Model and MSSM.
Contribution
It highlights the significance of QCD effects on the deviations from an ideal relativistic thermal bath in early Universe models.
Findings
QCD corrections dominate deviations in the thermal bath.
Impacts are relevant for astrophysical precision measurements.
Effects influence the dynamics of scalar tensor theories.
Abstract
We discuss the deviations from the ideal relativistic thermal bath. These deviations are dominated from quantum chromodynamic (QCD) corrections in the most part of the parameter space of the Standard Model (SM) and the Minimal Supersymmetric Standard Model (MSSM). These effects are relevant for astrophysical precision measurements and dynamics of scalar tensor theories (SST).
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