X-ray stacking of Lyman break galaxies in the 4 Ms CDF-S - X-ray luminosities and star formation rates across cosmic time

P.-C. Zinn; S. Blex; N. Seymour; D. J. Bomans

doi:10.1051/0004-6361/201219884

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Volume 547 (November 2012)

A&A, 547 (2012) A50

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Issue		A&A Volume 547, November 2012


Article Number		A50
Number of page(s)		12
Section		Extragalactic astronomy
DOI		https://doi.org/10.1051/0004-6361/201219884
Published online		25 October 2012

A&A 547, A50 (2012)

X-ray stacking of Lyman break galaxies in the 4 Ms CDF-S

X-ray luminosities and star formation rates across cosmic time

P.-C. Zinn¹^,2, S. Blex¹, N. Seymour² and D. J. Bomans¹

¹ Astronomisches Institut Ruhr-Universität Bochum, Universitätsstr. 150, 44801 Bochum, Germany
e-mail: zinn@astro.rub.de
² CSIRO Astronomy & Space Science, PO Box 76, Epping, NSW, 1710, Australia

Received: 25 June 2012
Accepted: 3 October 2012

Abstract

Context. Lyman break galaxies (LBGs) are widely thought to be prototypical young galaxies in the early universe, particularly representative of those undergoing massive events of star formation. Therefore, LBGs should produce significant amounts of X-ray emission.

Aims. We aim to trace the X-ray luminosity of LBGs across cosmic time and from that derive constraints on their star formation history.

Methods. We utilize the newly released 4 Ms mosaic obtained with the Chandra X-ray Observatory, the deepest X-ray image to date, alongside with the superb spectroscopic data sets available in the CDF-S survey region to construct large but nearly uncontaminated samples of LBGs across a wide range of redshift (0.5 < z < 4.5) which can be used as input samples for stacking experiments. This approach allows us to trace the X-ray emission of LBGs to even lower, previously unreachable, flux density limits (~10^-18 mW m^-2) and therefore to larger redshifts.

Results. We reliably detect soft-band X-ray emission from all our input redshift bins except for the highest redshift (z ~ 4) one. From that we derive rest-frame 2–10 keV luminosities and infer star formation rates and stellar masses. We find that star formation in LBGs peaks at a redshift of z_peak ≈ 3.5 and then decreases quickly. We also see a characteristic peak in the specific star formation rate (sSFR = SFR/M_∗) at this redshift. Furthermore, we calculate the contribution of LBGs to the total cosmic star formation rate density (SFRD) and find that the contribution of LBGs is negligible. Therefore, we conclude that most of the star formation in the early universe takes place in lower luminosity galaxies as suggested by hierarchical structure formation models.

Key words: methods: data analysis / galaxies: evolution / galaxies: high-redshift / X-rays: galaxies

© ESO, 2012

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