Bibcode
Sánchez-Conde, M. A.; Cannoni, Mirco; Zandanel, Fabio; Gómez, Mario E.; Prada, Francisco
Referencia bibliográfica
Journal of Cosmology and Astroparticle Physics, Issue 12, pp. 011 (2011).
Fecha de publicación:
12
2011
Número de citas
89
Número de citas referidas
77
Descripción
In this paper, we compare dwarf galaxies and galaxy clusters in order to
elucidate which object class is the best target for gamma-ray DM
searches with imaging atmospheric Cherenkov telescopes (IACTs). We have
built a mixed dwarfs+clusters sample containing some of the most
promising nearby dwarf galaxies (Draco, Ursa Minor, Wilman 1 and Segue
1) and local galaxy clusters (Perseus, Coma, Ophiuchus, Virgo, Fornax,
NGC 5813 and NGC 5846), and then compute their DM annihilation flux
profiles by making use of the latest modeling of their DM density
profiles. We also include in our calculations the effect of DM
substructure. Willman 1 appears as the best candidate in the sample.
However, its mass modeling is still rather uncertain, so probably other
candidates with less uncertainties and quite similar fluxes, namely Ursa
Minor and Segue 1, might be better options. As for galaxy clusters,
Virgo represents the one with the highest flux. However, its large
spatial extension can be a serious handicap for IACT observations and
posterior data analysis. Yet, other local galaxy cluster candidates with
more moderate emission regions, such as Perseus, may represent good
alternatives. After comparing dwarfs and clusters, we found that the
former exhibit annihilation flux profiles that, at the center, are
roughly one order of magnitude higher than those of clusters, although
galaxy clusters can yield similar, or even higher, integrated fluxes for
the whole object once substructure is taken into account. Even when any
of these objects are strictly point-like according to the properties of
their annihilation signals, we conclude that dwarf galaxies are best
suited for observational strategies based on the search of point-like
sources, while galaxy clusters represent best targets for analyses that
can deal with rather extended emissions. Finally, we study the detection
prospects for present and future IACTs in the framework of the
constrained minimal supersymmetric standard model. We find that the
level of the annihilation flux from these targets is below the
sensitivities of current IACTs and the future CTA.