Litcius/Paper detail

ACROPOLIS: A generiC fRamework fOr Photodisintegration Of LIght elementS

Paul Frederik Depta, Marco Hufnagel, Kai Schmidt-Hoberg

2021Journal of Cosmology and Astroparticle Physics15 citationsDOIOpen Access PDF

Abstract

Abstract The remarkable agreement between observations of the primordial light element abundances and the corresponding theoretical predictions within the standard cosmological history provides a powerful method to constrain physics beyond the standard model of particle physics (BSM). For a given BSM model these primordial element abundances are generally determined by (i) Big Bang Nucleosynthesis and (ii) possible subsequent disintegration processes . The latter potentially change the abundances due to late-time high-energy injections which may be present in these scenarios. While there are a number of public codes for the first part, no such code is currently available for the second. Here we close this gap and present ACROPOLIS, A generiC fRamework fOr Photodisintegration Of LIght elementS. The widely discussed cases of decays as well as annihilations can be run without prior coding knowledge within example programs. Furthermore, due to its modular structure, can easily be extended also to other scenarios. For the most recent version of this manual, please visit the GitHub repository at https://github.com/skumblex/acropolis .

Topics & Concepts

PhysicsPhotodisintegrationParticle physicsTheoretical physicsPhysics beyond the Standard ModelCosmologyAstroparticle physicsElement (criminal law)Standard Model (mathematical formulation)Code (set theory)Modular designBig Bang (financial markets)Abundance of the chemical elementsCosmic microwave backgroundUniverseStatistical physicsMetric expansion of spaceCosmic background radiationElementary particleCosmology and Gravitation TheoriesDark Matter and Cosmic PhenomenaAstronomy and Astrophysical Research