Zooniverse

The European Large Area ISO Survey - VIII. 90-μm final analysis and source counts

Monthly Notices of the Royal Astronomical Society 354:3 (2004) 924-934

Authors:

P Héraudeau, S Oliver, C Del Burgo, C Kiss, M Stickel, T Mueller, M Rowan-Robinson, A Efstathiou, C Surace, LV Tóth, S Serjeant, DM Alexander, A Franceschini, D Lemke, T Morel, I Pérez-Fournon, JL Puget, D Rigopoulou, B Rocca-Volmerange, A Verma

Abstract:

We present a re-analysis of the European Large Area Infrared Space Observatory (ISO) Survey (ELAIS) 90-μm observations carried out with ISOPHOT, an instrument on board the ISO of the European Space Agency. With more than 12 deg2, the ELAIS survey is the largest area covered by ISO in a single programme and is about one order of magnitude deeper than the IRAS 100-μm survey. The data analysis is presented and was mainly performed with the PHOT interactive analysis software but using the pairwise method of Stickel et al. for signal processing from edited raw data to signal per chopper plateau. The ELAIS 90-μm catalogue contains 237 reliable sources with fluxes larger than 70 mJy and is available in the electronic version of this article. Number counts are presented and show an excess above the no-evolution model prediction. This confirms the strong evolution detected at shorter (15 μm) and longer (170 μm) wavelengths in other ISO surveys. The ELAIS counts are in agreement with previous works at 90 μm and in particular with the deeper counts extracted from the Lockman hole observations. Comparison with recent evolutionary models show that the models of Franceschini et al. and Guiderdoni et al. (which includes a heavily extinguished population of galaxies) give the best fit to the data. Deeper observations are nevertheless required to discriminate better between the model predictions in the far-infrared, and are scheduled with the Spitzer Space Telescope, which has already started operating, and will also be performed by ASTRO-F.

Molecular abundance ratios as a tracer of accelerated collapse in regions of high mass star formation?

ArXiv astro-ph/0410653 (2004)

Authors:

CJ Lintott, S Viti, JMC Rawlings, DA Williams, TW Hartquist, P Caselli, I Zinchenko, P Myers

Abstract:

Recent observations suggest that the behaviour of tracer species such as N_2H+ and CS is significantly different in regions of high and low mass star formation. In the latter, N_2H+ is a good tracer of mass, while CS is not. Observations show the reverse to be true in high-mass star formation regions. We use a computational chemical model to show that the abundances of these and other species may be significantly altered by a period of accelerated collapse in high mass star forming regions. We suggest these results provide a potential explanation of the observations, and make predictions for the behaviour of other species.

The European Large-Area ISO Survey (ELAIS): The final band-merged catalogue

Monthly Notices of the Royal Astronomical Society 351:4 (2004) 1290-1306

Authors:

M Rowan-Robinson, C Lari, I Perez-Fournon, EA Gonzalez-Solares, F La Franca, M Vaccari, S Oliver, C Gruppioni, P Ciliegi, P Héraudeau, S Serjeant, A Efstathiou, T Babbedge, I Matute, F Pozzi, A Franceschini, P Vaisanen, A Afonso-Luis, DM Alexander, O Almaini, AC Baker, S Basilakos, M Barden, C Del Burgo, I Bellas-Velidis, F Cabrera-Guerra, R Carballo, CJ Cesarsky, DL Clements, H Crockett, L Danese, A Dapergolas, B Drolias, N Eaton, E Egami, D Elbaz, D Fadda, M Fox, R Genzel, P Goldschmidt, JI Gonzalez-Serrano, M Graham, GL Granato, E Hatziminaoglou, U Herbstmeier, M Joshi, E Kontizas, M Kontizas, JK Kotilainen, D Kunze, A Lawrence, D Lemke, MJD Linden-Vørnle, RG Mann, I Márquez, J Masegosa, RG McMahon, G Miley, V Missoulis, B Mobasher, T Morel, H Nørgaard-Nielsen, A Omont, P Papadopoulos, JL Puget, D Rigopoulou, B Rocca-Volmerange, N Sedgwick, L Silva, T Sumner, C Surace, B Vila-Vilaro, P Van Der Werf, A Verma, L Vigroux, M Villar-Martin, CJ Willott, A Carramiñana, R Mujica

Abstract:

We present the final band-merged European Large-Area ISO Survey (ELAIS) Catalogue at 6.7, 15, 90 and 175 μm, and the associated data at U, g′, r′, i′, Z, J, H, K and 20 cm. The origin of the survey, infrared and radio observations, data-reduction and optical identifications are briefly reviewed, and a summary of the area covered and the completeness limit for each infrared band is given. A detailed discussion of the band-merging and optical association strategy is given. The total Catalogue consists of 3762 sources. 23 per cent of the 15-μm sources and 75 per cent of the 6.7-μm sources are stars. For extragalactic sources observed in three or more infrared bands, colour-colour diagrams are presented and discussed in terms of the contributing infrared populations. Spectral energy distributions (SEDs) are shown for selected sources and compared with cirrus, M82 and Arp220 starburst, and active galactic nuclei (AGN) dust torus models. Spectroscopic redshifts are tabulated, where available. For the N1 and N2 areas, the Isaac Newton Telescope ugriz Wide Field Survey permits photometric redshifts to be estimated for galaxies and quasars. These agree well with the spectroscopic redshifts, within the uncertainty of the photometric method [∼ 10 per cent in (1 + z) for galaxies]. The redshift distribution is given for selected ELAIS bands and colour-redshift diagrams are discussed. There is a high proportion of ultraluminous infrared galaxies (log10 of 1-1000 μm luminosity Lir > 12.22) in the ELAIS Catalogue (14 per cent of 15-μm galaxies with known z), many with Arp220-like SEDs. 10 per cent of the 15-μm sources are genuine optically blank fields to r′ = 24: these must have very high infrared-to-optical ratios and probably have z > 0.6, so are high-luminosity dusty starbursts or Type 2 AGN. Nine hyperluminous infrared galaxies (Lir > 13.22) and nine extremely red objects (EROs) (r - K > 6) are found in the survey. The latter are interpreted as ultraluminous dusty infrared galaxies at z ∼ 1. The large numbers of ultraluminous galaxies imply very strong evolution in the star formation rate between z = 0 and 1. There is also a surprisingly large population of luminous (Lir > 11.5), cool (cirrus-type SEDs) galaxies, with Lir - L opt > 0, implying Av > 1.

The Nature of the Mid-Infrared Population from Optical Identifications of the ELAIS-S1 Sample

The Astronomical Journal American Astronomical Society 127:6 (2004) 3075-3088

Authors:

F La Franca, C Gruppioni, I Matute, F Pozzi, C Lari, M Mignoli, G Zamorani, DM Alexander, F Cocchia, L Danese, A Franceschini, P Héraudeau, JK Kotilainen, MJD Linden-Vørnle, S Oliver, M Rowan-Robinson, S Serjeant, L Spinoglio, A Verma

The environments of hyperluminous infrared galaxies at 0.44 < z < 1.55

Monthly Notices of the Royal Astronomical Society 349:2 (2004) 518-526

Authors:

D Farrah, J Geach, M Fox, S Serjeant, S Oliver, A Verma, A Kaviani, M Rowan-Robinson

Abstract:

We present deep wide-field Ks-band observations of six Hyperluminous Infrared Galaxies (HLIRGs) spanning a redshift range 0.44 < z < 1.55. The sample resides in a wide variety of environments, from the field to Abell 2 clusters, with a mean galaxy-HLIRG clustering amplitude of 〈Bgh〉 = 190 ± 45 Mpc1.77. The range in environments, and the mean clustering level, are both greater than those seen in local IR-luminous galaxies, from which we infer that the range of galaxy evolution processes driving IR-luminous galaxy evolution at z > 0.5 is greater than locally, and includes mergers between gas-rich spiral galaxies in the field, but also includes encounters in clusters and hierarchical build-up. The similarity in the range of environments and mean clustering amplitude between our sample and QSOs over a similar redshift range is consistent with the interpretation where evolutionary connections between IR-luminous galaxies and QSOs are stronger at z > 0.5 than locally, and that, at these redshifts, the processes that drive QSO evolution are similar to those that drive IR-luminous galaxy evolution. From comparison of the HLIRG and QSO host galaxies we further postulate that a larger fraction of IR-luminous galaxies pass through an optical QSO stage at z > 0.5 than locally.