Astronomy and Astrophysics – Astrophysics
Scientific paper
2005-06-02
Astron.Astrophys.445:43-49,2006; Erratum-ibid.454:715,2006
Astronomy and Astrophysics
Astrophysics
Scientific paper
10.1051/0004-6361:20053557
Caustics are high-density structures that form frequently in collisionless media. Under self-gravity, cold dark matter flows focus onto caustics which are yet to be resolved in numerical simulations and or observed in the real world. If detected, caustics would provide a strong evidence for dark matter and would rule out alternative models such as those with modified dynamics. Here, we demonstrate how they might be observed in the weak lensing data. We evaluate the shear distortion and show that its radial profile is marked by a characteristic sawtooth pattern due to the caustics in dark matter haloes that form by selfsimilar accretion. We discuss the observational complications, mainly due to the poor knowledge of the virial radii of the haloes and demonstrate that a superposition of about 300 cluster-size haloes would give a signal-to-noise ratio which is sufficiently large for the detection of caustics with ground-based observations. This number is reduced to 100 for space-based observations. These bounds can be easily achieved by the ongoing wide field optical surveys such as CFHTLS and the future space-based projects SNAP and DUNE which have to be accompanied by a X-ray follow-up of the selected clusters for a precise determination of their virial radii.
Fort Bernard
Gavazzi Raphael
Mohayaee Roya
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