MusE GAs FLOw and Wind (MEGAFLOW) XII. Rationale and design of a MgII survey of the cool circum-galactic medium with MUSE and UVES: The MEGAFLOW Survey
Abstract
We present the design, rationale, properties and catalogs of the MusE Gas FLOw and Wind survey (MEGAFLOW), a survey of the cool gaseous halos of z1 galaxies using low-ionization MgII absorption systems. The survey consists of 22 quasar fields selected from the Sloan Digital Sky Survey (SDSS) having multiple (≥3) strong MgII absorption lines over the redshift range 0.3<z<1.5. Each quasar was observed with the Multi-Unit Spectroscopic Explorer (MUSE) and the Ultraviolet and Visual Echelle Spectrograph (UVES), for a total of 85~hr and 63~hr, respectively. The UVES data resulted in 127 MgII absorption lines over 0.25<z<1.6, with a median rest-frame equivalent width (REW) 3σ limit of ≈ 0.05~. The MUSE data resulted in 2400 galaxies of which 1403 with redshift confidence ZCONF>1, i.e. more than 60 galaxies per arcmin2. They were identified using a dual detection algorithm based on both continuum and emission line objects. The achieved [OII] 50\%\ completeness is 3.7× 10-18 erg/s/cm2 (corresponding to SFR>0.01 M yr-1 at z=1) using realistic mock [OII] emitters and the 50\%\ completeness is mF775W≈26 AB magnitudes for continuum sources. We find that (i) the fraction of [OII] emitting galaxies which have no continuum is 15\%; (ii) the success rate in identifying at least one galaxy within 500 km/s and 100 kpc is ≈90\%\ for MgII absorptions with Wr27960.5~; (iii) the mean number of galaxies per MgII absorption is 2.91.6 within the MUSE field-of-view; (iv) of the 80 MgII systems at 0.3<z<1.5, 40 (20) have 1 (2) galaxies within 100 kpc, respectively; (v) all but two host galaxies have stellar masses M>109 M, and star-formation rates >1 M yr-1.
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