What it takes to measure a fundamental difference between dark matter and baryons: the halo velocity anisotropy

Details What it takes to measure a fundamental difference between dark matter and baryons: the halo velocity anisotropy What it takes to measure a fundamental difference between dark matter and baryons: the halo velocity anisotropy

2007-04-23

arxiv.org/abs/0704.2909v3

JCAP 0706:016,2007

Astronomy and Astrophysics

Astrophysics

15 pages, 8 figures, accepted by JCAP. Matches accepted version

Scientific paper

10.1088/1475-7516/2007/06/016

Numerous ongoing experiments aim at detecting WIMP dark matter particles from the galactic halo directly through WIMP-nucleon interactions. Once such a detection is established a confirmation of the galactic origin of the signal is needed. This requires a direction-sensitive detector. We show that such a detector can measure the velocity anisotropy beta of the galactic halo. Cosmological N-body simulations predict the dark matter anisotropy to be nonzero, beta~0.2. Baryonic matter has beta=0 and therefore a detection of a nonzero beta would be strong proof of the fundamental difference between dark and baryonic matter. We estimate the sensitivity for various detector configurations using Monte Carlo methods and we show that the strongest signal is found in the relatively few high recoil energy events. Measuring beta to the precision of ~0.03 will require detecting more than 10^4 WIMP events with nuclear recoil energies greater than 100 keV for a WIMP mass of 100 GeV and a 32S target. This number corresponds to ~10^6 events at all energies. We discuss variations with respect to input parameters and we show that our method is robust to the presence of backgrounds and discuss the possible improved sensitivity for an energy-sensitive detector.

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