Bibcode
Venn, Kim A.; Tolstoy, Eline; Sánchez-Janssen, Rubén; Navarro, Julio F.; McConnachie, Alan W.; Longeard, Nicolas; Jablonka, Pascale; Ibata, Rodrigo A.; Gwyn, Stephen D. J.; Hill, Vanessa; González Hernández, J. I.; Franke, Oliver; François, Patrick; Fouesneau, Morgan; Côté, Patrick; Carlberg, Raymond G.; Caffau, Elisabetta; Bonifacio, Piercarlo; Bernard, Edouard J.; Arentsen, Anke; Allende Prieto, C.; Aguado, D. S.; Youakim, Kris; Martin, Nicolas; Starkenburg, E.
Referencia bibliográfica
Monthly Notices of the Royal Astronomical Society, Volume 471, Issue 3, p.2587-2604
Fecha de publicación:
11
2017
Número de citas
195
Número de citas referidas
173
Descripción
We present the Pristine survey, a new narrow-band photometric survey
focused on the metallicity-sensitive Ca H&K lines and conducted in
the Northern hemisphere with the wide-field imager MegaCam on the
Canada-France-Hawaii Telescope. This paper reviews our overall survey
strategy and discusses the data processing and metallicity calibration.
Additionally we review the application of these data to the main aims of
the survey, which are to gather a large sample of the most metal-poor
stars in the Galaxy, to further characterize the faintest Milky Way
satellites, and to map the (metal-poor) substructure in the Galactic
halo. The current Pristine footprint comprises over 1000 deg2
in the Galactic halo ranging from b ˜ 30° to ˜78°
and covers many known stellar substructures. We demonstrate that, for
Sloan Digital Sky Survey (SDSS) stellar objects, we can calibrate the
photometry at the 0.02-mag level. The comparison with existing
spectroscopic metallicities from SDSS/Sloan Extension for Galactic
Understanding and Exploration (SEGUE) and Large Sky Area Multi-Object
Fiber Spectroscopic Telescope shows that, when combined with SDSS
broad-band g and I photometry, we can use the CaHK photometry to infer
photometric metallicities with an accuracy of ˜0.2 dex from [Fe/H]
= -0.5 down to the extremely metal-poor regime ([Fe/H] < -3.0). After
the removal of various contaminants, we can efficiently select
metal-poor stars and build a very complete sample with high purity. The
success rate of uncovering [Fe/H]SEGUE < -3.0 stars among
[Fe/H]Pristine < -3.0 selected stars is 24 per cent, and
85 per cent of the remaining candidates are still very metal poor
([Fe/H]<-2.0). We further demonstrate that Pristine is well suited to
identify the very rare and pristine Galactic stars with [Fe/H] <
-4.0, which can teach us valuable lessons about the early Universe.
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Allende Prieto