TY - JOUR
T1 - Bright strongly lensed galaxies at redshift z 6-7 behind the clusters abell 1703 and CL0024+16
AU - Zheng, W.
AU - Bradley, L. D.
AU - Bouwens, R. J.
AU - Ford, H. C.
AU - Illingworth, G. D.
AU - Benítez, N.
AU - Broadhurst, T.
AU - Frye, B.
AU - Infante, L.
AU - Jee, M. J.
AU - Motta, V.
AU - Shu, X. W.
AU - Zitrin, A.
PY - 2009
Y1 - 2009
N2 - We report on the discovery of three bright, strongly lensed objects behind Abell 1703 and CL0024+16 from a dropout search over 25 arcmin2 of deep NICMOS data, with deep ACS optical coverage. They are undetected in the deep ACS images below 8500 and have clear detections in the J and H bands. Fits to the ACS, NICMOS, and IRAC data yield robust photometric redshifts in the range z 6-7 and largely rule out the possibility that they are low-redshift interlopers. All three objects are extended, and resolved into a pair of bright knots. The bright i-band dropout in Abell 1703 has an H-band AB magnitude of 23.9, which makes it one of the brightest known galaxy candidates at z > 5.5. Our model fits suggest a young, massive galaxy only 60 million years old with a mass of 1010 M ⊙. The dropout galaxy candidates behind CL0024+16 are separated by 25 (2 kpc in the source plane), and have H-band AB magnitudes of 25.0 and 25.6. Lensing models of CL0024+16 suggest that the objects have comparable intrinsic magnitudes of AB 27.3, approximately one magnitude fainter than L* at z 6.5. Their similar redshifts, spectral energy distribution, and luminosities, coupled with their very close proximity on the sky, suggest that they are spatially associated, and plausibly are physically bound. Combining this sample with two previously reported, similarly magnified galaxy candidates at z 6-8, we find that complex systems with dual nuclei may be a common feature of high-redshift galaxies.
AB - We report on the discovery of three bright, strongly lensed objects behind Abell 1703 and CL0024+16 from a dropout search over 25 arcmin2 of deep NICMOS data, with deep ACS optical coverage. They are undetected in the deep ACS images below 8500 and have clear detections in the J and H bands. Fits to the ACS, NICMOS, and IRAC data yield robust photometric redshifts in the range z 6-7 and largely rule out the possibility that they are low-redshift interlopers. All three objects are extended, and resolved into a pair of bright knots. The bright i-band dropout in Abell 1703 has an H-band AB magnitude of 23.9, which makes it one of the brightest known galaxy candidates at z > 5.5. Our model fits suggest a young, massive galaxy only 60 million years old with a mass of 1010 M ⊙. The dropout galaxy candidates behind CL0024+16 are separated by 25 (2 kpc in the source plane), and have H-band AB magnitudes of 25.0 and 25.6. Lensing models of CL0024+16 suggest that the objects have comparable intrinsic magnitudes of AB 27.3, approximately one magnitude fainter than L* at z 6.5. Their similar redshifts, spectral energy distribution, and luminosities, coupled with their very close proximity on the sky, suggest that they are spatially associated, and plausibly are physically bound. Combining this sample with two previously reported, similarly magnified galaxy candidates at z 6-8, we find that complex systems with dual nuclei may be a common feature of high-redshift galaxies.
KW - Cosmology: observations
KW - Galaxies: clusters: general
KW - Galaxies: high-redshift
KW - Gravitational lensing
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U2 - 10.1088/0004-637X/697/2/1907
DO - 10.1088/0004-637X/697/2/1907
M3 - Article
AN - SCOPUS:66649109998
SN - 0004-637X
VL - 697
SP - 1907
EP - 1917
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 2
ER -