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Discretising the velocity distribution for directional dark matter experiments

Abstract : Dark matter (DM) direct detection experiments which are directionally-sensitive may be the only method of probing the full velocity distribution function (VDF) of the Galactic DM halo. We present an angular basis for the DM VDF which can be used to parametrise the distribution in order to mitigate astrophysical uncertainties in future directional experiments and extract information about the DM halo. This basis consists of discretising the VDF in a series of angular bins, with the VDF being only a function of the DM speed $v$ within each bin. In contrast to other methods, such as spherical harmonic expansions, the use of this basis allows us to guarantee that the resulting VDF is everywhere positive and therefore physical. We present a recipe for calculating the event rates corresponding to the discrete VDF for an arbitrary number of angular bins $N$ and investigate the discretisation error which is introduced in this way. For smooth, Standard Halo Model-like distribution functions, only $N=3$ angular bins are required to achieve an accuracy of around $10-30\%$ in the number of events in each bin. Shortly after confirmation of the DM origin of the signal with around 50 events, this accuracy should be sufficient to allow the discretised velocity distribution to be employed reliably. For more extreme VDFs (such as streams), the discretisation error is typically much larger, but can be improved with increasing $N$. This method paves the way towards an astrophysics-independent analysis framework for the directional detection of dark matter.
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Contributor : Emmanuelle De Laborderie Connect in order to contact the contributor
Submitted on : Tuesday, June 21, 2016 - 3:49:37 PM
Last modification on : Tuesday, July 12, 2022 - 4:40:20 PM

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Bradley J. Kavanagh. Discretising the velocity distribution for directional dark matter experiments. Journal of Cosmology and Astroparticle Physics, Institute of Physics (IOP), 2015, 2015, 7 (019), ⟨10.1088/1475-7516/2015/07/019⟩. ⟨cea-01335007⟩



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