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Astron. Astrophys. 327, 1-7 (1997)
Magnetic fields and large-scale structure in a hot universe
II. Magnetic flux tubes and filamentary structure
E. Florido and
E. Battaner
Dpto. Fisica Teorica y del Cosmos, Universidad de
Granada, Spain
Received 25 September 1996 / Accepted 8 April 1997
Abstract
In Paper I, we obtained an equation for the evolution of
density inhomogeneities in a radiation dominated universe when they
are affected by magnetic fields. In this second paper we apply this
equation to the case in which the subjacent magnetic configuration is
a flux tube. For scales of the order of 1 Mpc or less the differential
equation is elliptical. To solve it, we have used the numerical method
based on "Simultaneous Over Relaxation", SOR, with Chebyshev
acceleration and we have treated the problem as a boundary value
problem, which restricts the prediction ability of the integration.
For large-scale flux tubes, much larger than 1 Mpc , the equation can
be analytically integrated and no assumption about the final shape or
magnitude of the inhomogeneity is required. In both cases we obtain an
evolution which does not differ very much from linear in time. The
inhomogeneity in the density becomes filamentary. Large scale
structures (![[FORMULA]](img1.gif)
10 Mpc) are probably unaffected by damping,
non-linear and amplification mechanisms after Equality, so that this
model provides a tool to interpret the present observed large scale
structure. Filaments are very frequently found in the large-scale
structure in the Universe. It is suggested here that they could arise
from primordial magnetic flux tubes, thus providing an alternative
hypothesis for its interpretation; in particular we consider the case
of the Coma-A1367 supercluster, where the magnetic field is known to
be high.
Key words: magnetohydrodynamics - relativity - cosmology: large-scale structure of Universe
Contents
- 1. General equations
- 2. The integration and boundary conditions
- 3. Small and intermediate flux tube thickness
- 4. Large scale flux tubes
- 5. Conclusions
- References
© European Southern Observatory (ESO) 1997
Online publication: April 8, 1998
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