Coupled baryon diffusion and nucleosynthesis in the early universe

## Abstract We give a pedagogical introduction to two aspects of magnetic fields in the early Universe. We first focus on how to formulate electrodynamics in curved space time, defining appropriate magnetic and electric fields and writing Maxwell equations in terms of these fields. We then speciali

I t is a geiicrsl belief that iri some early stages of the evolutiou of the Uiiiversc unequilibriuni situations played importatit role. In order to iiicorporatc sonic deviations froin tlicrmal equilibrium into thc description of the cvolution. lierc an extension of the tliermodynamic formalism is gi

In the very early universe with temperature T between 10% K and 103r K the gravitational effect of torsion is dominant if particles with spin are sufficiently polarized. The source of the torsion is the spin density and the latter is usually described by a classical theory of Weyssenhoff and Raabe.

By introducing the Bose-Einstein condensation dynamics (BEC), we develop a unified model of dark energy and dark matter . The two phases of BEC (= dark energy) and normal gas (=dark matter) transform with each other through the phase transition. We study the present mild acceleration, the inflation