A Quasi-Unitary Pre-Quantum Theory of Particles and Fields and Some Theoretical Implications

Through a phenomenological approach using the concept of sub-quantum fluid, the theory argues the
possibility of a cold genesis of elementary particles and of fields, explaining the electro-magnetic and
the gravitic fields by equations of ideal fluids applied to the subquantum and the quantum “primordial
dark energy”. The possibility to explain the cold genesis of “dark” photons and of “dark” elementary
particles is obtained by a CF -chiral soliton model of lepton, resulted as vortex of „primordial dark
energy”, respective- as Bose-Einstein condensate of gammonic (e+-e-)-pairs confined in a very strong
magnetic field, in the Protouniverse’s period of time. This possibility results by a model of primordial
‘gravistar’ with a self-growing property given by the confining of “primordial dark energy” into “dark
photons” and into “dark particles” by a “vortex cascade” mechanism induced by its magnetic field and
gravitationally sustained.
The supposed primordial “big bang” of the Universe results as a period of gravistars transforming into
magnetars, supernovae and into (micro)quasars.
The resulted model of expanding Universe gives a semi-sinusoidal variation of the expansion speed.
The approach explains naturally the fundamental interactions, by the same basic concept.