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A&A 386, 169-186 (2002)
DOI: 10.1051/0004-6361:20020229
Generation of galactic disc warps due to intergalactic accretion flows onto the disc
M. López-Corredoira1, 2, J. Betancort-Rijo2, 3 and J. E. Beckman2, 41 Astronomisches Institut der Universität Basel, Venusstrasse 7, 4102-Binningen, Switzerland
2 Instituto de Astrofísica de Canarias, 38200 La Laguna, Tenerife, Spain
3 Departamento de Astrofísica, Universidad de La Laguna, Tenerife, Spain
4 Consejo Superior de Investigaciones Científicas (CSIC), Spain
(Received 29 March 2001 / Accepted 5 February 2002 )
Abstract
A new method is developed to calculate the amplitude of the
galactic warps generated by a torque due to external forces.
This takes into account that the warp is produced as a reorientation
of the different rings which constitute the disc in order to compensate
the differential precession generated by the external force,
yielding a uniform asymptotic precession for all rings.
Application of this method to gravitational tidal forces in the
Milky Way due to the Magellanic Clouds leads to a very low amplitude
of the warp, as has been inferred in previous studies; so, tidal forces
are unlikely to generate warps, at least in the Milky Way.
If the force were due to an
extragalactic magnetic field, its intensity would have to
be very high, greater than 1
G, to generate the observed warps.
An alternative hypothesis is explored: the accretion of the intergalactic
medium over the disk. A cup-shaped distortion is expected, due to
the transmission of the linear momentum; but, this effect is small
and the predominant effect turns out to be
the transmission of angular momentum, i.e.
a torque giving an integral-sign shape warp.
The torque produced by a flow of velocity ~100 km s
-1
and baryon density ~
10-25 kg/m
3 is enough to generate
the observed warps and this mechanism offers quite a plausible explanation.
First, because this order of accretion rate
is inferred from other processes observed in the Galaxy, notably
its chemical evolution. The inferred rate of
infall of matter, ~1
/yr, to the Galactic disc that this theory
predicts agrees with the quantitative predictions
of this chemical evolution resolving key issues, notably
the G-dwarf problem. Second, the required density of the intergalactic
medium is within the range of values compatible with observation.
By this mechanism, we can explain the warp phenomenon
in terms of intergalactic accretion flows onto the disk of the galaxy.
Key words: galaxies: structure -- galaxy: structure -- galaxies: interactions -- galaxies: kinematic and dynamics -- galaxies: magnetic fields
Offprint request: M. López-Corredoira, martinlc@astro.unibas.ch
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