Constraining the population of 6 ≲ z ≲ 10 star-forming galaxies with deep near-IR images of lensing clusters

被引:76
作者
Richard, J.
Pello, R.
Schaerer, D.
Le Borgne, J. -F.
Kneib, J. -P.
机构
[1] Observ Midi Pyrenees, Astrophys Lab, UMR 5572, F-31400 Toulouse, France
[2] Observ Geneva, CH-1290 Sauverny, Switzerland
[3] OAMP, Astrophys Lab, UMR 6110, F-13012 Marseille, France
[4] Caltech Astron, Pasadena, CA 91125 USA
关键词
galaxy : formation; galaxies : high-redshift; galaxies : photometry; gravitational lensing;
D O I
10.1051/0004-6361:20053724
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
We present the first results of our deep survey of lensing clusters aimed at constraining the abundance of star-forming galaxies at z similar to 6-10, using lensing magnification to improve the search efficiency and subsequent spectroscopic studies. Deep near-IR photometry of two lensing clusters (A1835 and AC114) was obtained with ISAAC/VLT. These images, combined with existing data in the optical bands including HST images, were used to select very high redshift candidates at z greater than or similar to 6 among the optical-dropouts. Photometric selection criteria have been defined based on the well-proven dropout technique, specifically tuned to target star-forming galaxies in this redshift domain. We have identified 18(8) first and second-category optical dropouts in A1835 (AC114), detected in more than one filter up to H (Vega) similar to 23.8 (AB similar to 25.2, uncorrected for lensing). Among them, 8(5) exhibit homogeneous SEDs compatible with star-forming galaxies at z greater than or similar to 6, and 5(1) are more likely intermediate-redshift EROs based on luminosity considerations. We have also identified a number of fainter sources in these fields fulfilling our photometric selection and located around the critical lines. We use all these data to make a first attempt at constraining the density of star-forming galaxies present at 6 less than or similar to z less than or similar to 10 using lensing clusters. Magnification e. ects and sample incompleteness are addressed through a careful modeling of the lensing clusters. A correction was also introduced to account for the expected fraction of false-positive detections among this photometric sample. It appears that the number of candidates found in these lensing fields, corrected for magnification, incompleteness and false-positive detections, is higher than the one achieved in blank fields with similar photometric depth in the near-IR. The luminosity function derived for z greater than or similar to 6 candidates appears compatible with that of LBGs at z similar or equal to 3, without any renormalization. The turnover observed by Bouwens et al. (2005) towards the bright end relative to the z similar to 3 LF is not observed in this sample. Also the upper limit for the UV SFR density at z similar to 6-10, integrated down to L-1500 = 0.3 L-z=3(*), of p(*) = 7.4 x 10(-2) M-circle dot yr(-1) Mpc(-3) is compatible with the usual values derived at z similar to 5-6, but higher than the estimates obtained in the NICMOS Ultra Deep Field (UDF). The same holds for the upper limit of the SFR density in the z similar or equal to 8-10 interval (p(*) = 1.1 x 10(-1)). This systematic trend towards the bright end of the LF with respect to blank fields could be due to field-to-field variance, a positive magnification bias from intermediate-redshift EROs, and/or residual contamination. Given the low S/N ratio of the high-z candidates, and the large correction factors applied to this sample, increasing the number of blank and lensing fields with ultra-deep near-IR photometry is essential to obtain more accurate constraints on the abundance of z greater than or similar to 6 galaxies.
引用
收藏
页码:861 / U27
页数:29
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