We present first results from a narrowband imaging program for intermediate-redshift emissionline galaxies using the newly commissioned FourStar infrared camera at the 6.5 m Magellan telescope. To enable prompt identification of Hα emitters, a pair of custom 1% filters, which sample low-airglow atmospheric windows at 1.19 μm and 2.10 μm, is used to detect both Hα and [O II] λ3727 emission from the same redshift volume at z = 2:2. Initial observations are taken over a 130 arcmin 2 area in the CANDELS-COSMOS field. The exquisite image quality resulting from the combination of the instrument, telescope, and standard site conditions (~0:55 FWHM) allows the 1.19 μm and 2.10 μm data to probe 3Γ emission-line depths down to 1:0 × 10 -17 erg s -1 cm -2 and 1:2 × 10 -17 erg s -1 cm -2, respectively, in less than 10 hr of integration time in each narrow band. For Hα at z = 0:8 and z = 2:2, these fluxes correspond to observed star formation rates of ~0:3 and ~4 Mȯ yr -1, respectively.We find 122 sources with a 1.19 μm excess and 136 with a 2.10 μm excess, 41 of which show an excess in both bands. The dual-narrowband technique, as implemented here, is estimated to identify ≳80% of z = 2:2 Hα emitters in the narrowband excess population. With the most secure such sample obtained to date, we compute constraints on the faint-end slope of the z 1/4 2:2 Hα luminosity function. Fitting of a pure power law gives α = -1:85 ± 0:31, which is steeper than other recent estimates based on coarser selection techniques, but consistent within the typically large uncertainties that currently characterize such measurements. Combining our LF points with those at higher luminosities from other work, the slope decreases to α = -1:58 ± 0:40. These "narrow-deep" FourStar observations have been obtained as part of the larger New Hα Survey, which will combine the data with "wide-shallow" imaging through a similar narrowband filter pair with NEWFIRMat the KPNO/CTIO 4 m telescopes, to enable study of both luminous (but rare) and faint emission-line galaxies in the intermediate-redshift universe.
|Number of pages||16|
|Journal||Publications of the Astronomical Society of the Pacific|
|Publication status||Published - Jul 2012|