Supersymmetric Dark Matter 2004
arXiv:hep-ph/0410113
Abstract
Recent cosmological data allow to determine the universal Dark Matter (DM) density to a precision of about 10%, if a simple, well-motivated ansatz for the spectrum of primordial density perturbations is correct. Not surprisingly, a thermal neutralino Ïwill have the correct relic density only in ``small'' regions of parameter space. In particular, for fixed values of the other parameters, the allowed region in the (m_0, m_{1/2} plane (in mSUGRA or similar models) seems quite small, if standard assumptions about the Universe at temperature T \simeq m_Ï/ 10 are correct. I argue that the allowed parameter space is actually still quite large, when all uncertainties are properly taken into account. In particular, the current lower limits on sparticle and Higgs masses that can be derived within mSUGRA do not change appreciably when the DM relic density constraint is imposed. I also show that deviating from mSUGRA does not alleviate the finetuning required to obtain the correct relic density, unless one also postulates a non-standard cosmology. Finally, I briefly discuss claimed positive evidence for particle Dark Matter.
Plenary talk at "SUSY2004", Tsukuba, Japan, June 2004: LaTeX with pdproc.sty (included), 4 .eps figures (included)