Journal
SYMMETRY-BASEL
Volume 14, Issue 1, Pages -Publisher
MDPI
DOI: 10.3390/sym14010112
Keywords
elementary particles; universe; cosmology; inflation; baryosynthesis; dark matter; early universe; symmetry breaking; phase transitions; primordial black holes; antimatter; dark atoms
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The field of cosmoparticle physics explores the relationship between the universe and particle physics, focusing on non-standard features of dark matter cosmology related to BSM physics. This interdisciplinary study utilizes methods such as studying primordial black holes, antimatter stars, and composite dark matter to investigate BSM models and their parameters.
The physics of the dark Universe goes beyond the standard model (BSM) of fundamental interactions. The now-standard cosmology involves inflation, baryosynthesis and dark matter/energy corresponding to BSM physics. Cosmoparticle physics offers cross disciplinary study of the fundamental relationship of cosmology and particle physics in the combination of its physical, astrophysical and cosmological signatures. Methods of cosmoparticle physics in studies of BSM physics in its relationship with inevitably nonstandard features of dark universe cosmology are discussed. In the context of these methods, such exotic phenomena as primordial black holes, antimatter stars in baryon asymmetrical Universe or multi-charged constituents of nuclear interacting atoms of composite dark matter play the role of sensitive probes for BSM models and their parameters.
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