Tracing the Evolution of Dust Obscured Star Formation and Accretion Back to the Reionisation Epoch withSPICA

Author:

Gruppioni C.ORCID,Ciesla L.,Hatziminaoglou E.,Pozzi F.,Rodighiero G.,Santini P.,Armus L.,Baes M.,Braine J.,Charmandaris V.,Clements D.L.,Christopher N.,Dannerbauer H.,Efstathiou A.,Egami E.,Fernández-Ontiveros J.A.,Fontanot F.,Franceschini A.,González-Alfonso E.,Griffin M.,Kaneda H.,Marchetti L.,Monaco P.,Nakagawa T.,Onaka T.,Papadopoulos A.,Pearson C.,Pérez-Fournon I.,Peréz-González P.,Roelfsema P.,Scott D.,Serjeant S.,Spinoglio L.,Vaccari M.,van der Tak F.,Vignali C.,Wang L.,Wada T.

Abstract

AbstractOur current knowledge of star formation and accretion luminosity at high redshift (z> 3–4), as well as the possible connections between them, relies mostly on observations in the rest-frame ultraviolet, which are strongly affected by dust obscuration. Due to the lack of sensitivity of past and current infrared instrumentation, so far it has not been possible to get a glimpse into the early phases of the dust-obscured Universe. Among the next generation of infrared observatories,SPICA, observing in the 12–350 µm range, will be the only facility that can enable us to trace the evolution of the obscured star-formation rate and black-hole accretion rate densities over cosmic time, from the peak of their activity back to the reionisation epoch (i.e., 3 <z≲ 6–7), where its predecessors had severe limitations. Here, we discuss the potential of photometric surveys performed with theSPICAmid-infrared instrument, enabled by the very low level of impact of dust obscuration in a band centred at 34 µm. These unique unbiased photometric surveys thatSPICAwill perform will fully characterise the evolution of AGNs and star-forming galaxies after reionisation.

Publisher

Cambridge University Press (CUP)

Subject

Space and Planetary Science,Astronomy and Astrophysics

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