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Quarks to Cosmos: Particles and Plasma in Cosmological evolution
We describe in the context of the particle physics (PP) standard model (SM) `PP-SM' the understanding of the primordial properties and composition of the Universe in the temperature range \(130\GeV>T>20\keV\). The Universe evolution is described using FLRW cosmology. We present a global v...
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| Published in: | arXiv.org 2024-09 |
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| description | We describe in the context of the particle physics (PP) standard model (SM) `PP-SM' the understanding of the primordial properties and composition of the Universe in the temperature range \(130\GeV>T>20\keV\). The Universe evolution is described using FLRW cosmology. We present a global view on particle content across time and describe the different evolution eras using deceleration parameter \(q\). We follow the arrow of time in the expanding and cooling Universe: After the PP-SM heavies \((t, h, W, Z)\) diminish in abundance below \(T\simeq 50\GeV\), the PP-SM plasma in the Universe is governed by the strongly interacting Quark-Gluon content. Once the temperature drops below \(T\simeq 150\MeV\), quarks and gluons hadronize into strongly interacting matter particles. Rapid disappearance of baryonic antimatter completes at \(T_\mathrm{B}=38.2\MeV\). We study the ensuing disappearance of strangeness and mesons in general. We show that the different eras defined by particle populations are barely separated from each other with abundance of muons fading out just prior to \(T=\mathcal{O}(2.5)\MeV\), the era of emergence of the free-streaming neutrinos. We discuss the two relevant fundamental constants controlling the decoupling of neutrinos. We subsequently follow the primordial Universe as it passes through the hot dense electron-positron plasma epoch. The high density of positron antimatter disappears near \(T=20.3\keV\): Nuclear reactions occur in the presence of a highly mobile and relatively strongly interacting electron-positron plasma phase. We apply plasma theory methods to describe the strong screening effects between heavy dust particle (nucleons). We analyze the paramagnetic characteristics of the electron-positron plasma when exposed to an external primordial magnetic field. |
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We discuss the two relevant fundamental constants controlling the decoupling of neutrinos. We subsequently follow the primordial Universe as it passes through the hot dense electron-positron plasma epoch. The high density of positron antimatter disappears near \(T=20.3\keV\): Nuclear reactions occur in the presence of a highly mobile and relatively strongly interacting electron-positron plasma phase. We apply plasma theory methods to describe the strong screening effects between heavy dust particle (nucleons). 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We discuss the two relevant fundamental constants controlling the decoupling of neutrinos. We subsequently follow the primordial Universe as it passes through the hot dense electron-positron plasma epoch. The high density of positron antimatter disappears near \(T=20.3\keV\): Nuclear reactions occur in the presence of a highly mobile and relatively strongly interacting electron-positron plasma phase. We apply plasma theory methods to describe the strong screening effects between heavy dust particle (nucleons). We analyze the paramagnetic characteristics of the electron-positron plasma when exposed to an external primordial magnetic field.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><oa>free_for_read</oa></addata></record> |
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| identifier | EISSN: 2331-8422 |
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| language | eng |
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| subjects | Abundance Antimatter Astronomical models Cosmology Decoupling Electron-positron plasmas Evolution Gluons Mesons Muons Neutrinos Nuclear reactions Particle physics Plasma Quarks Standard model (particle physics) Strangeness Universe |
| title | Quarks to Cosmos: Particles and Plasma in Cosmological evolution |
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