Journal
JOURNAL OF COSMOLOGY AND ASTROPARTICLE PHYSICS
Volume -, Issue 8, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/1475-7516/2010/08/004
Keywords
dark matter experiments; rotation curves of galaxies
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We present a novel study on the problem of constructing mass models for the Milky Way, concentrating on features regarding the dark matter halo component. We have considered a variegated sample of dynamical observables for the Galaxy, including several results which have appeared recently, and studied a 7- or 8-dimensional parameter space defining the Galaxy model - by implementing a Bayesian approach to the parameter estimation based on a Markov Chain Monte Carlo method. The main result of this analysis is a novel determination of the local dark matter halo density which, assuming spherical symmetry and either an Einasto or an NFW density profile is found to be around 0.39 GeV cm(-3) with a 1-sigma error bar of about 7%; more precisely we find a rho(DM) (R-0) = 0.385 +/- 0.027 GeV cm(-3) for the Einasto profile and rho(DM) (R-0) = 0.389 +/- 0.025 GeV cm(-3) for the NFW. This is in contrast to the standard assumption that rho(DM) (R-0) is about 0.3 GeV cm(-3) with an uncertainty of a factor of 2 to 3. A very precise determination of the local halo density is very important for interpreting direct dark matter detection experiments. Indeed the results we produced, together with the recent accurate determination of the local circular velocity, should be very useful to considerably narrow astrophysical uncertainties on direct dark matter detection.
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