Astronomy and Astrophysics – Astrophysics
Scientific paper
2000-11-22
Mon.Not.Roy.Astron.Soc.325:435,2001
Astronomy and Astrophysics
Astrophysics
8 pages, Latex using MN style, accepted version, to appear in MNRAS. Other figures not included in the paper can be found at
Scientific paper
10.1046/j.1365-8711.2001.04477.x
We carry out ray tracing through five high resolution simulations of a galaxy cluster to study how its ability to produce giant gravitationally lensed arcs is influenced by the collision cross-section of its dark matter. In three cases typical dark matter particles in the cluster core undergo between 1 and 100 collisions per Hubble time; two more explore the long (``collisionless'') and short (``fluid'') mean free path limits. We study the size and shape distributions of arcs and compute the cross-section for producing ``extreme'' arcs of various sizes. Even a few collisions per particle modify the core structure enough to destroy the cluster's ability to produce long, thin arcs. For larger collision frequencies the cluster must be scaled up to unrealistically large masses before it regains the ability to produce giant arcs. None of our models with self-interacting dark matter (except the ``fluid'' limit) is able to produce radial arcs; even the case with the smallest scattering cross-section must be scaled to the upper limit of observed cluster masses before it produces radial arcs. Apparently the elastic collision cross-section of dark matter in clusters must be very small, below 0.1 cm^2 g^-1, to be compatible with the observed ability of clusters to produce both radial arcs and giant arcs.
Bartelmann Matthias
Meneghetti Massimo
Moscardini Lauro
Springel Volker
Tormen Giuseppe
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