The Warm Spitzer Mission: Prospects for Studies of the Distant Universe

TL;DR

This paper discusses the potential of the Warm Spitzer mission for studying the distant universe through various survey strategies, leveraging IRAC's capabilities to observe high-redshift galaxies and large-scale structures.

Contribution

It proposes a three-tiered survey approach during the Warm Spitzer mission to maximize scientific return on distant universe studies.

Findings

Deep IRAC observations surpass ground-based capabilities at 2.2 microns.

Proposed surveys target redshifts 1<z<14 for galaxy evolution and structure.

Flexible scheduling allows adaptation to evolving scientific priorities.

Abstract

IRAC excels at detecting distant objects. Due to a combination of the shapes of the spectral energy distributions of galaxies and the low background achieved from space, IRAC reaches greater depth in comparable exposure time at 3.6 and 4.5 micron than any ground- or space-based facility currently can at 2.2 micron. Furthermore, the longer wavelengths probed by IRAC enable studies of the rest-frame optical and near-infrared light of galaxies and AGN to much higher redshift than is possible from the ground. This white paper explores the merits of different survey strategies for studying the distant universe during the warm mission. A three-tiered approach serves a wide range of science goals and uses the spacecraft effectively: 1) an ultra-deep survey of ~0.04 square degrees to a depth of ~250 hrs (in conjunction with an HST/WFC3 program), to study the Universe at 7<z<14; 2) a survey of ~2 square degrees to the GOODS depth of 20 hrs, to identify luminous galaxies at z>6 and characterize the relation between the build-up of dark matter halos and their constituent galaxies at 2<z<6, and 3) a 500 square degree survey to the SWIRE depth of 120 s, to systematically study large scale structure at 1<z<2 and characterize high redshift AGN. One or more of these programs could conceivably be implemented by the SSC, following the example of the Hubble Deep Field campaigns. As priorities in this field continuously shift it is also crucial that a fraction of the exposure time remains unassigned, thus enabling science that will reflect the frontiers of 2010 and beyond rather than those of 2007.