Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2008-01-16
Astron.Astrophys.Trans.23:453-461,2004
Physics
High Energy Physics
High Energy Physics - Phenomenology
12 pages
Scientific paper
10.1080/10556790412331312395
If the next fundamental level of matter occurs (preons) then dark matter must consist of familons containing a "hot" component from massless particles and a "cold" component from massive particles. During evolution of the Universe this dark matter was undergone to late-time relativistic phase transitions temperatures of which were different. Fluctuations created by these phase transitions have had a fractal character. In the result the structurization of dark matter (and therefore the baryon subsystem) has taken place and in the Universe some characteristic scales which have printed this phenomenon arise naturally. Familons are collective excitations of nonperturbative preon condensates which could be produced during more early relativistic phase transition. For structurization of dark matter (and baryon component) three generations of particles are necessary. The first generation of particles has produced the observed baryon world. The second and third generations have produced dark matter from particles which have appeared when symmetry among generations was spontaneously broken.
Burdyuzha Vladimir V.
Lalakulich Olga
Ponomarev Yu.
Vereshkov Gregory
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