Stellar populations of lyman break galaxies at Z ≃ 1-3 in the hst/wfc3 early release science observations

R. E. Ryan, N. P. Hathi*, S. H. Cohen, R. E. Ryan, S. L. Finkelstein, P. J. McCarthy, R. A. Windhorst, H. Yan, A. M. Koekemoer, M. J. Rutkowski, R. W. O'Connell, A. N. Straughn, B. Balick, H. E. Bond, D. Calzetti, M. J. Disney, M. A. Dopita, Jay A. Frogel, D. N.B. Hall, J. A. HoltzmanR. A. Kimble, F. Paresce, A. Saha, J. I. Silk, J. T. Trauger, A. R. Walker, B. C. Whitmore, E. T. Young

*Corresponding author for this work

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    13 Citations (Scopus)

    Abstract

    We analyze the spectral energy distributions (SEDs) of Lyman break galaxies (LBGs) at z ≃ 1-3 selected using the Hubble Space Telescope (HST) Wide Field Camera 3 (WFC3) UVIS channel filters. These HST/WFC3 observations cover about 50 arcmin2 in the GOODS-South field as a part of the WFC3 Early Release Science program. These LBGs at z ≃ 1-3 are selected using dropout selection criteria similar to high-redshift LBGs. The deep multi-band photometry in this field is used to identify best-fit SED models, from which we infer the following results: (1) the photometric redshift estimate of these dropout-selected LBGs is accurate to within few percent; (2) the UV spectral slope β is redder than at high redshift (z > 3), where LBGs are less dusty; (3) on average, LBGs at z ≃ 1-3 are massive, dustier, and more highly star forming, compared to LBGs at higher redshifts with similar luminosities (0.1L* ≲ L ≲ 2.5L*), though their median values are similar within 1σ uncertainties. This could imply that identical dropout selection technique, at all redshifts, finds physically similar galaxies; and (4) the stellar masses of these LBGs are directly proportional to their UV luminosities with a logarithmic slope of ∼0.46, and star formation rates are proportional to their stellar masses with a logarithmic slope of ∼0.90. These relations hold true - within luminosities probed in this study - for LBGs from z ≃ 1.5 to 5. The star-forming galaxies selected using other color-based techniques show similar correlations at z ≃ 2, but to avoid any selection biases, and for direct comparison with LBGs at z > 3, a true Lyman break selection at z ≃ 2 is essential. The future HST UV surveys, both wider and deeper, covering a large luminosity range are important to better understand LBG properties and their evolution.

    Original languageEnglish
    Article number88
    JournalAstrophysical Journal
    Volume765
    Issue number2
    DOIs
    Publication statusPublished - 10 Mar 2013

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