Multi-wavelength properties of Spitzer-selected starbursts at z~2

TL;DR

This study characterizes a sample of 33 Spitzer-selected starburst galaxies at z~2, analyzing their multi-wavelength properties, and finds they are predominantly luminous SMGs with high star formation rates and specific FIR characteristics.

Contribution

It provides a detailed multi-wavelength analysis of a unique sample of Spitzer-selected starbursts at z~2, highlighting their FIR properties and relation to SMGs, which was less explored before.

Findings

Majority are classified as SMGs based on 1.2mm flux.

Median FIR luminosity is 2.5x10^{12} Lo, with SFR ~450 Mo/yr.

Sample shows lower F_{1.2mm}/F_{24micron} ratios than classical SMGs.

Abstract

A complete sample of 33 sources believed to be starbursts ("5.8micron-peakers") was selected in the (0.5 sq. deg.) J1046+56 field with selection criteria F_(24micron)>400muJy, the presence of a redshifted stellar emission peak at 5.8um, and r'(Vega)>23. The field, part of the SWIRE Lockman Hole field, benefits from very deep VLA/GMRT 20cm, 50cm, and 90cm radio data (all 33 sources are detected at 50cm), and deep 160micron and 70micron Spitzer data. The 33 sources, with photometric redshifts ~1.5-2.5, were observed at 1.2mm with IRAM-30m/MAMBO to an rms ~0.7-0.8mJy in most cases. Their millimeter, radio, 7-band Spitzer, and near-IR properties were jointly analyzed. The entire sample of 33 sources has an average 1.2mm flux density of 1.56+/-0.22mJy and a median of 1.61mJy, so the majority of the sources can be considered SMGs. Four sources have confirmed 4sigma detections, and nine were tentatively detected at the 3sigma level. Because of its 24micron selection, our sample shows systematically lower F_(1.2mm)/F_(24micron) flux ratios than classical SMGs, probably because of enhanced PAH emission. A median FIR SED was built by stacking images at the positions of 21 sources in the region of deepest Spitzer coverage. Its parameters are T_(dust)=37+/-8K, L_(FIR)=2.5x10^{12}Lo, and SFR=450Mo/yr. The FIR-radio correlation provides another estimate of L_(FIR) for each source, with an average value of 4.1x10^{12}Lo; however, this value may be overestimated because of some AGN contribution. Most of our targets are also luminous star-forming BzK galaxies which constitute a significant fraction of weak SMGs at 1.7<z<2.3.