Magnetic fields and the large scale structure
Jun, 19995 pages
Part of Proceedings, IGRAP International Conference on Clustering at High Redshift : Marseille, France, June 29-July 2, 1999, 144-147
Published in:
- ASP Conf.Ser. 200 (2000) 144-147
Contribution to:
- Published: 2000
e-Print:
- astro-ph/9911423 [astro-ph]
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Abstract: (arXiv)
The large-scale structure of the Universe has been observed to be characterized by long filaments, forming polyhedra, with a remarkable 100-200 Mpc periodicity, suggesting a regular network. The introduction of magnetic fields into the physics of the evolution of structure formation provides some clues to understanding this unexpected lattice structure. A relativistic treatment of the evolution of pre-recombination inhomogeneities, including magnetic fields, is presented to show that equivalent-to-present field strengths of the order of G could have played an important role. Primordial magnetic tubes generated at inflation, at scales larger than the horizon before recombination, could have produced filamentary density structures, with comoving lengths larger than about 10 Mpc. Structures shorter than this would have been destroyed by diffusion due to the small pre-recombination conductivity. If filaments constitute a lattice, the primordial magnetic field structures that produced the post-recombination structures of matter, impose several restrictions on the lattice. The simplest lattice compatible with these restrictions is a network of octahedra contacting at their vertexes, which is indeed identifiable in the observed distribution of superclusters.References(0)
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