Galaxy formation and evolution

Herschel-ATLAS: The dust energy balance in the edge-on spiral galaxy UGC 4754

Astronomy and Astrophysics 518:3 (2010)

Authors:

M Baes, J Fritz, DA Gadotti, DJB Smith, L Dunne, E Da Cunha, A Amblard, R Auld, GJ Bendo, D Bonfield, D Burgarella, S Buttiglione, A Cava, D Clements, A Cooray, A Dariush, G De Zotti, S Dye, S Eales, D Frayer, J Gonzalez-Nuevo, D Herranz, E Ibar, R Ivison, G Lagache, L Leeuw, M Lopez-Caniego, M Jarvis, S Maddox, M Negrello, M Michałowski, E Pascale, M Pohlen, E Rigby, G Rodighiero, S Samui, S Serjeant, P Temi, M Thompson, P Van Der Werf, A Verma, C Vlahakis

Abstract:

We use Herschel PACS and SPIRE observations of the edge-on spiral galaxy UGC 4754, taken as part of the H-ATLAS SDP observations, to investigate the dust energy balance in this galaxy. We build detailed SKIRT radiative models based on SDSS and UKIDSS maps and use these models to predict the far-infrared emission. We find that our radiative transfer model underestimates the observed FIR emission by a factor of two to three. Similar discrepancies have been found for other edge-on spiral galaxies based on IRAS, ISO, and SCUBA data. Thanks to the good sampling of the SED at FIR wavelengths, we can rule out an underestimation of the FIR emissivity as the cause for this discrepancy. Instead we support highly obscured star formation that contributes little to the optical extinction as a more probable explanation. © ESO, 2010.

Herschel-ATLAS: The angular correlation function of submillimetre galaxies at high and low redshift

Astronomy and Astrophysics 518:3 (2010)

Authors:

SJ Maddox, L Dunne, E Rigby, S Eales, A Cooray, D Scott, JA Peacock, M Negrello, DJB Smith, D Benford, A Amblard, R Auld, M Baes, D Bonfield, D Burgarella, S Buttiglione, A Cava, D Clements, A Dariush, G De Zotti, S Dye, D Frayer, J Fritz, J Gonzalez-Nuevo, D Herranz, E Ibar, R Ivison, MJ Jarvis, G Lagache, L Leeuw, M Lopez-Caniego, E Pascale, M Pohlen, G Rodighiero, S Samui, S Serjeant, P Temi, M Thompson, A Verma

Abstract:

We present measurements of the angular correlation function of galaxies selected from the first field of the H-ATLAS survey. Careful removal of the background from galactic cirrus is essential, and currently dominates the uncertainty in our measurements. For our 250 μm-selected sample we detect no significant clustering, consistent with the expectation that the 250 μm-selected sources are mostly normal galaxies at z < 1. For our 350 μm and 500 μm-selected samples we detect relatively strong clustering with correlation amplitudes A of 0.2 and 1.2 at 1', but with relatively large uncertainties. For samples which preferentially select high redshift galaxies at z∼2-3 we detect significant strong clustering, leading to an estimate of r0 ∼ 7-11 h-1 Mpc. The slope of our clustering measurements is very steep, δ ∼ 2. The measurements are consistent with the idea that sub-mm sources consist of a low redshift population of normal galaxies and a high redshift population of highly clustered star-bursting galaxies. © ESO, 2010.

Herschel-PACS spectroscopic diagnostics of local ULIRGs: Conditions and kinematics in Markarian 231

Astronomy and Astrophysics 518:2 (2010)

Authors:

J Fischer, E Sturm, E González-Alfonso, J Graciá-Carpio, S Hailey-Dunsheath, A Poglitsch, A Contursi, D Lutz, R Genzel, A Sternberg, A Verma, L Tacconi

Abstract:

In this first paper on the results of our Herschel PACS survey of local ultra luminous infrared galaxies (ULIRGs), as part of our SHINING survey of local galaxies, we present far-infrared spectroscopy of Mrk 231, the most luminous of the local ULIRGs, and a type 1 broad absorption line AGN. For the first time in a ULIRG, all observed far-infrared fine-structure lines in the PACS range were detected and all were found to be deficient relative to the far infrared luminosity by 1-2 orders of magnitude compared with lower luminosity galaxies. The deficits are similar to those for the mid-infrared lines, with the most deficient lines showing high ionization potentials. Aged starbursts may account for part of the deficits, but partial covering of the highest excitation AGN powered regions may explain the remaining line deficits. A massive molecular outflow, discovered in OH and 18OH, showing outflow velocities out to at least 1400 km s-1, is a unique signature of the clearing out of the molecular disk that formed by dissipative collapse during the merger. The outflow is characterized by extremely high ratios of 18O/16O suggestive of interstellar medium processing by advanced starbursts. © 2010 ESO.

Herschel-PACS spectroscopic diagnostics of local ULIRGs: Conditions and kinematics in Markarian 231

Astronomy and Astrophysics 518:2 (2010)

Authors:

J Fischer, E Sturm, E González-Alfonso, J Graciá-Carpio, S Hailey-Dunsheath, A Poglitsch, A Contursi, D Lutz, R Genzel, A Sternberg, A Verma, L Tacconi

Abstract:

In this first paper on the results of our Herschel PACS survey of local ultra luminous infrared galaxies (ULIRGs), as part of our SHINING survey of local galaxies, we present far-infrared spectroscopy of Mrk 231, the most luminous of the local ULIRGs, and a type 1 broad absorption line AGN. For the first time in a ULIRG, all observed far-infrared fine-structure lines in the PACS range were detected and all were found to be deficient relative to the far infrared luminosity by 1-2 orders of magnitude compared with lower luminosity galaxies. The deficits are similar to those for the mid-infrared lines, with the most deficient lines showing high ionization potentials. Aged starbursts may account for part of the deficits, but partial covering of the highest excitation AGN powered regions may explain the remaining line deficits. A massive molecular outflow, discovered in OH and 18OH, showing outflow velocities out to at least 1400 km s-1, is a unique signature of the clearing out of the molecular disk that formed by dissipative collapse during the merger. The outflow is characterized by extremely high ratios of 18O/16O suggestive of interstellar medium processing by advanced starbursts. © 2010 ESO.

In-flight calibration of the Herschel-SPIRE instrument

Astronomy and Astrophysics 518:1 (2010)

Authors:

BM Swinyard, A Dowell, M Ferlet, D Griffin, S Guest, K King, S Leeks, TL Lim, C Pearson, E Polehampton, D Rigopoulou, S Ronayette, S Sidher, P Ade, M Griffin, K Isaak, A Papageorgiou, M Pohlen, A Rykala, L Spencer, J-P Baluteau, D Benielli, D Pouliquen, MJ Barlow, G Savini, R Wesson, GJ Bendo, M Trichas, J Bock, D Dowell, H Nguyen, D Brisbin, A Conley, L Conversi, I Valtchanov, T Fulton, P Imhof, J Glenn, M Zemcov, L Levenson, N Lu, B Schulz, A Schwartz, D Shupe, CK Xu, L Zhang, S Jones, G Makiwa, D Naylor, S Oliver, AJ Smith, H Aussel, P Panuzzo, H Triou, H Roussel, A Woodcraft, A Glauser, B Sibthorpe

Abstract:

SPIRE, the Spectral and Photometric Imaging REceiver, is the Herschel Space Observatory's submillimetre camera and spectrometer. It contains a three-band imaging photometer operating at 250, 350 and 500 μm, and an imaging Fourier-transform spectrometer (FTS) covering 194-671 μm (447-1550 GHz). In this paper we describe the initial approach taken to the absolute calibration of the SPIRE instrument using a combination of the emission from the Herschel telescope itself and the modelled continuum emission from solar system objects and other astronomical targets. We present the photometric, spectroscopic and spatial accuracy that is obtainable in data processed through the "standard" pipelines. The overall photometric accuracy at this stage of the mission is estimated as 15% for the photometer and between 15 and 50% for the spectrometer. However, there remain issues with the photometric accuracy of the spectra of low flux sources in the longest wavelength part of the SPIRE spectrometer band. The spectrometer wavelength accuracy is determined to be better than 1/10th of the line FWHM. The astrometric accuracy in SPIRE maps is found to be 2 arcsec when the latest calibration data are used. The photometric calibration of the SPIRE instrument is currently determined by a combination of uncertainties in the model spectra of the astronomical standards and the data processing methods employed for map and spectrum calibration. Improvements in processing techniques and a better understanding of the instrument performance will lead to the final calibration accuracy of SPIRE being determined only by uncertainties in the models of astronomical standards. © 2010 ESO.