Maxim Yu Khlopov
Paris Diderot University, France
Centre of CosmoParticle Physics, Cosmion, Russia
National Research Nuclear University MEPhI, Russia
Posters & Accepted Abstracts: J Astrophys Aerospace Technol
The modern cosmology is based on inflationary model with baryosynthesis, dark matter and dark energy. These phenomena imply the predictions of particle theory, going far beyond the experimentally proven standard model of elementary particles and involving new symmetries, particles and fields at various new fundamental scales. On the other hand cosmological probes become a necessary element of modern high energy physics. That fundamental relationship of micro- and macro- worlds implies complex cross-disciplinary studies of the combination of indirect physical, astrophysical and cosmological signatures of physics beyond the standard model, on which modern cosmology is based. Cosmological impact palys special role in these studies, revealing the nontrivial relationship of cosmological structures and dark matter candidates with new symmetries beyond the standard model and mechanisms of their breaking. Symmetry can be restored in early Unvierse and phase transitions related with its breaking can lead to macroscopical primordial nonllinear structures, like clouds of massive primodial black holes, whose coalescence might have been observed in gravitational wave detectors.
Astrophysics & Aerospace Technology received 114 citations as per Google Scholar report