Your search keyword '"Nordon R"' showing total 441 results

1. Non-linearity and environmental dependence of the star forming galaxies Main Sequence

Author

Erfanianfar, G., Popesso, P., Finoguenov, A., Wilman, D., Wuyts, S., Biviano, A., Salvato, M., Mirkazemi, M., Morselli, L., Ziparo, F., Nandra, K., Lutz, D., Elbaz, D., Dickinson, M., Tanaka, M., Altieri, M. B., Aussel, H., Bauer, F., Berta, S., Bielby, R. M., Brandt, N., Cappelluti, N., Cimatti, A., Cooper, M. C., Fadda, D., Ilbert, O., Floch, E. Le, Magnelli, B., Mulchaey, J. S., Nordon, R., Newman, J. A., Poglitsch, A., and Pozzi, F.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Using data from four deep fields (COSMOS, AEGIS, ECDFS, and CDFN), we study the correlation between the position of galaxies in the star formation rate (SFR) versus stellar mass plane and local environment at $z<1.1$. To accurately estimate the galaxy SFR, we use the deepest available Spitzer/MIPS 24 and Herschel/PACS datasets. We distinguish group environments ( $M_{halo}\sim$10$^{12.5-14.2}$$M_{\odot}$) based on the available deep X-ray data and lower halo mass environments based on the local galaxy density. We confirm that the Main Sequence (MS) of star forming galaxies is not a linear relation and there is a flattening towards higher stellar masses ( $M_*>10^{10.4-10.6}$ $M_{\odot}$), across all environments. At high redshift ( $0.5

Published

2015

2. The far-infrared/radio correlation and radio spectral index of galaxies in the SFR-M* plane up to z 2

Author

Magnelli, B., Ivison, R. J., Lutz, D., Valtchanov, I., Farrah, D., Berta, S., Bertoldi, F., Bock, J., Cooray, A., Ibar, E., Karim, A., Floc'h, E. Le, Nordon, R., Oliver, S. J., Page, M., Popesso, P., Pozzi, F., Rigopoulou, D., Riguccini, L., Rodighiero, G., Rosario, D., Roseboom, I., Wang, L., and Wuyts, S.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

[Abridged] We study the evolution of the radio spectral index and far-infrared/radio correlation (FRC) across the star-formation rate-stellar masse (i.e. SFR-M*) plane up to z 2. We start from a M*-selected sample of galaxies with reliable SFR and redshift estimates. We then grid the SFR-M* plane in several redshift ranges and measure the infrared luminosity, radio luminosity, radio spectral index, and ultimately the FRC index (i.e. qFIR) of each SFR-M*-z bin. The infrared luminosities of our SFR-M*-z bins are estimated using their stacked far-infrared flux densities inferred from observations obtained with Herschel. Their radio luminosities and radio spectral indices (i.e. alpha, where Snu nu^-alpha) are estimated using their stacked 1.4GHz and 610MHz flux densities from the VLA and GMRT, respectively. Our far-infrared and radio observations include the most widely studied blank extragalactic fields -GOODS-N/S, ECDFS, and COSMOS- covering a sky area of 2deg^2. Using this methodology, we constrain the radio spectral index and FRC index of star-forming galaxies with M*>10^10Msun and 0

Published

2014

3. The evolution of star formation activity in galaxy groups

Author

Erfanianfar, G., Popesso, P., Finoguenov, A., Wuyts, S., Wilman, D., Biviano, A., Ziparo, F., Salvato, M., Nandra, K., Lutz, D., Elbaz, D., Dickinson, M., Tanaka, M., Mirkazemi, M., Balogh, M. L., Altieri, M B., Aussel, H., Bauer, F., Berta, S., Bielby, R. M., Brandt, N., Cappelluti, N., Cimatti, A., Cooper, M., Fadda, D., Ilbert, O., Floch, E. Le, Magnelli, B., Mulchaey, J. S., Nordon, R., Newman, J. A., Poglitsch, A., and Pozzi, F.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We study the evolution of the total star formation (SF) activity, total stellar mass and halo occupation distribution in massive halos by using one of the largest X-ray selected sample of galaxy groups with secure spectroscopic identification in the major blank field surveys (ECDFS, CDFN, COSMOS, AEGIS). We provide an accurate measurement of SFR for the bulk of the star-forming galaxies using very deep mid-infrared Spitzer MIPS and far-infrared Herschel PACS observations. For undetected IR sources, we provide a well-calibrated SFR from SED fitting. We observe a clear evolution in the level of SF activity in galaxy groups. The total SF activity in the high redshift groups (0.5

Published

2014

4. The evolution of galaxy star formation activity in massive halos

Author

Popesso, P., Biviano, A., Finoguenov, A., Wilman, D., Salvato, M., Magnelli, B., Gruppioni, C., Pozzi, F., Rodighiero, G., Ziparo, F., Berta, S., Elbaz, D., Dickinson, M., Lutz, D., Altieri, B., Aussel, H., Cimatti, A., Fadda, D., Ilbert, O., Floch, E. Le, Nordon, R., Poglitsch, A., and Xu, C. K.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

There is now a large consensus that the current epoch of the Cosmic Star Formation History (CSFH) is dominated by low mass galaxies while the most active phase at 1~1, the most IR-luminous galaxies (LIRGs and ULIRGs) are preferentially located in groups, and this is consistent with a reversal of the star-formation rate vs .density anti-correlation observed in the nearby Universe. At these redshifts, group galaxies contribute 60-80% of the CSFH, i.e. much more than at lower redshifts. Below z~1, the comoving number and SFR densities of IR-emitting galaxies in groups decline significantly faster than those of all IR-emitting galaxies. Our results are consistent with a "halo downsizing" scenario and highlight the significant role of "environment" quenching in shaping the CSFH., Comment: 14 pages, 10 figures, accepted for publication by A&A

Published

2014

5. The role of massive halos in the Star Formation History of the Universe

Author

Popesso, P., Biviano, A., Finoguenov, A., Wilman, D., Salvato, M., Magnelli, B., Gruppioni, C., Pozzi, F., Rodighiero, G., Ziparo, F., Berta, S., Elbaz, D., Dickinson, M., Lutz, D., Altieri, B., Aussel, H., Cimatti, A., Fadda, D., Ilbert, O., Floch, E. Le, Nordon, R., Poglitsch, A., Genel, S., and Xu, C. K.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The most striking feature of the Cosmic Star Formation History (CSFH) of the Universe is a dramatic drop of the star formation (SF) activity, since z~1. In this work we investigate if the very same process of assembly and growth of structures is one of the major drivers of the observed decline. We study the contribution to the CSFH of galaxies in halos of different masses. This is done by studying the total SFR-halo mass-redshift plane from redshift 0 to redshift z~1.6 in a sample of 57 groups and clusters by using the deepest available mid- and far-infrared surveys conducted with Spitzer MIPS and Herschel PACS and SPIRE. Our results show that low mass groups provide a 60-80% contribution to the CSFH at z~1. Such contribution declines faster than the CSFH in the last 8 billion years to less than 10% at z<0.3, where the overall SF activity is sustained by lower mass halos. More massive systems provide only a marginal contribution (<10%) at any epoch. A simplified abundance matching method shows that the large contribution of low mass groups at z~1 is due to a large fraction (>50%) of very massive, highly star forming Main Sequence galaxies. Below z~1 a quenching process must take place in massive halos to cause the observed faster suppression of their SF activity. Such process must be a slow one though, as most of the models implementing a rapid quenching of the SF activity in accreting satellites significantly underpredicts the observed SF level in massive halos at any redshift. Starvation or the transition from cold to hot accretion would provide a quenching timescale of 1 Gyrs more consistent with the observations. Our results suggest a scenario in which, due to the structure formation process, more and more galaxies experience the group environment and, thus, the associated quenching process. This leads to the progressive suppression of their SF activity shaping the CSFH below z~1., Comment: 18 pages, 21 figures, accepted for publication by A&A

Published

2014

6. The Herschel Planetary Nebula Survey (HerPlaNS) I. Data Overview and Analysis Demonstration with NGC 6781

Author

Ueta, T., Ladjal, D., Exter, K. M., Otsuka, M., Szczerba, R., Siódmiak, N., Aleman, I., van Hoof, P. A. M., Kastner, J. H., Montez, R., McDonald, I., Wittkowski, M., Sandin, C., Ramstedt, S., De Marco, O., Villaver, E., Chu, Y. -H., Vlemmings, W., Izumiura, H., Sahai, R., Lopez, J. A., Balick, B., Zijlstra, A., Tielens, A. G. G. M., Rattray, R. E., Behar, E., Blackman, E. G., Hebden, K., Hora, J. L., Murakawa, K., Nordhaus, J., Nordon, R., and Yamamura, I

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

This is the first of a series of investigations into far-IR characteristics of 11 planetary nebulae (PNs) under the Herschel Space Observatory Open Time 1 program, Herschel Planetary Nebula Survey (HerPlaNS). Using the HerPlaNS data set, we look into the PN energetics and variations of the physical conditions within the target nebulae. In the present work, we provide an overview of the survey, data acquisition and processing, and resulting data products. We perform (1) PACS/SPIRE broadband imaging to determine the spatial distribution of the cold dust component in the target PNs and (2) PACS/SPIRE spectral-energy-distribution (SED) and line spectroscopy to determine the spatial distribution of the gas component in the target PNs. For the case of NGC 6781, the broadband maps confirm the nearly pole-on barrel structure of the amorphous carbon-richdust shell and the surrounding halo having temperatures of 26-40 K. The PACS/SPIRE multi-position spectra show spatial variations of far-IR lines that reflect the physical stratification of the nebula. We demonstrate that spatially-resolved far-IR line diagnostics yield the (T_e, n_e) profiles, from which distributions of ionized, atomic, and molecular gases can be determined. Direct comparison of the dust and gas column mass maps constrained by the HerPlaNS data allows to construct an empirical gas-to-dust mass ratio map, which shows a range of ratios with the median of 195+-110. The present analysis yields estimates of the total mass of the shell to be 0.86 M_sun, consisting of 0.54 M_sun of ionized gas, 0.12 M_sun of atomic gas, 0.2 M_sun of molecular gas, and 4 x 10^-3 M_sun of dust grains. These estimates also suggest that the central star of about 1.5 M_sun initial mass is terminating its PN evolution onto the white dwarf cooling track., Comment: 27 pages, 16 figures, accepted for publication in A&A

Published

2014

7. Non-linearity and environmental dependence of the star-forming galaxies main sequence

Author

Erfanianfar, G, Popesso, P, Finoguenov, A, Wilman, D, Wuyts, S, Biviano, A, Salvato, M, Mirkazemi, M, Morselli, L, Ziparo, F, Nandra, K, Lutz, D, Elbaz, D, Dickinson, M, Tanaka, M, Altieri, MB, Aussel, H, Bauer, F, Berta, S, Bielby, RM, Brandt, N, Cappelluti, N, Cimatti, A, Cooper, MC, Fadda, D, Ilbert, O, Le Floch, E, Magnelli, B, Mulchaey, JS, Nordon, R, Newman, JA, Poglitsch, A, and Pozzi, F

Subjects

Space Sciences, Particle and High Energy Physics, Astronomical Sciences, Physical Sciences, Galaxy: evolution, Galaxy: structure, galaxies: groups: general, galaxies: haloes, galaxies: star formation, infrared: galaxies, astro-ph.GA, Astronomical and Space Sciences, Astronomy & Astrophysics, Astronomical sciences, Particle and high energy physics, Space sciences

Abstract

Using data from four deep fields (COSMOS, AEGIS, ECDFS, and CDFN), we studythe correlation between the position of galaxies in the star formation rate(SFR) versus stellar mass plane and local environment at $z10^{10.4-10.6}$ $M_{\odot}$), across all environments. At high redshift ($0.5

Published

2016

8. The evolution of the dust and gas content in galaxies

Author

Santini, P., Maiolino, R., Magnelli, B., Lutz, D., Lamastra, A., Causi, G. Li, Eales, S., Andreani, P., Berta, S., Buat, V., Cooray, A., Cresci, G., Daddi, E., Farrah, D., Fontana, A., Franceschini, A., Genzel, R., Granato, G., Grazian, A., Floc'h, E. Le, Magdis, G., Magliocchetti, M., Mannucci, F., Menci, N., Nordon, R., Oliver, S., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Rosario, D. J., Salvato, M., Scott, D., Silva, L., Tacconi, L., Viero, M., Wang, L., Wuyts, S., and Xu, K.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We use deep Herschel PACS and SPIRE observations in GOODSS, GOODSN and COSMOS to estimate the average dust mass (Mdust) of galaxies on a redshift-stellar mass (Mstar)-SFR grid. We study the scaling relations between Mdust, Mstar and SFR at z<=2.5. No clear evolution of Mdust is observed at fixed SFR and Mstar. We find a tight correlation between SFR and Mdust, likely a consequence of the Schmidt-Kennicutt (S-K) law. The Mstar-Mdust correlation observed by previous works flattens or sometimes disappears when fixing the SFR. Most of it likely derives from the combination of the Mdust-SFR and Mstar-SFR correlations. We then investigate the gas content as inferred by converting Mdust by assuming that the dust/gas ratio scales linearly with the gas metallicity. All galaxies in the sample follow, within uncertainties, the same SFR-Mgas relation (integrated S-K law), which broadly agrees with CO-based results for the bulk of the population, despite the completely different approaches. The majority of galaxies at z~2 form stars with an efficiency (SFE=SFR/Mgas) ~5 times higher than at z~0. It is not clear what fraction of such variation is an intrinsic redshift evolution and what fraction arises from selection effects. The gas fraction (fgas) decreases with Mstar and increases with SFR, and does not evolve with z at fixed Mstar and SFR. We explain these trends by introducing a universal relation between fgas, Mstar and SFR, non-evolving out to z~2.5. Galaxies move across this relation as their gas content evolves in time. We use the 3D fundamental fgas-Mstar-SFR relation and the redshift evolution of the Main Sequence to estimate the evolution of fgas in the average population of galaxies as a function of z and Mstar, and we find evidence a downsizing scenario., Comment: Accepted for publication in A&A

Published

2013

9. The evolution of the dust temperatures of galaxies in the SFR$-M_{\ast}$ plane up to $z$$\,\thicksim\,$$2$

Author

Magnelli, B., Lutz, D., Saintonge, A., Berta, S., Santini, P., Symeonidis, M., Altieri, B., Andreani, P., Aussel, H., Béthermin, M., Bock, J., Bongiovanni, A., Cepa, J., Cimatti, A., Conley, A., Daddi, E., Elbaz, D., Schreiber, N. M. Förster, Genzel, R., Ivison, R. J., Floc'h, E. Le, Magdis, G., Maiolino, R., Nordon, R., Oliver, S. J., Page, M., García, A. Pérez, Poglitsch, A., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Rosario, D., Roseboom, I., Sanchez-Portal, M., Scott, D., Sturm, E., Tacconi, L. J., Valtchanov, I., Wang, L., and Wuyts, S.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

[Abridged] We study the evolution of the dust temperatures of galaxies in the SFR-M* plane up to z~2 using observations from the Herschel Space Observatory. Starting from a sample of galaxies with reliable star-formation rates (SFRs), stellar masses (M*) and redshift estimates, we grid the SFR-M* parameter space in several redshift ranges and estimate the mean Tdust of each SFR-M*-z bin. Dust temperatures are inferred using the stacked far-infrared flux densities of our SFR-M*-z bins. At all redshifts, Tdust increases with infrared luminosities (LIR), specific SFRs (SSFR; i.e., SFR/M*) and distances with respect to the main sequence (MS) of the SFR-M* plane (i.e., D_SSFR_MS=log[SSFR(galaxy)/SSFR_MS(M*,z)]). The Tdust-SSFR and Tdust-D_SSFR_MS correlations are statistically more significant than the Tdust-LIR one. While the slopes of these three correlations are redshift-independent, their normalizations evolve from z=0 and z~2. We convert these results into a recipe to derive Tdust from SFR, M* and z. The existence of a strong Tdust-D_SSFR_MS correlation provides us with information on the dust and gas content of galaxies. (i) The slope of the Tdust-D__SSFR_MS correlation can be explained by the increase of the star-formation efficiency (SFE; SFR/Mgas) with D_SSFR_MS as found locally by molecular gas studies. (ii) At fixed D_SSFR_MS, the constant Tdust observed in galaxies probing large ranges in SFR and M* can be explained by an increase or decrease of the number of star-forming regions with comparable SFE enclosed in them. (iii) At high redshift, the normalization towards hotter temperature of the Tdust-D_SSFR_MS correlation can be explained by the decrease of the metallicities of galaxies or by the increase of the SFE of MS galaxies. All these results support the hypothesis that the conditions prevailing in the star-forming regions of MS and far-above-MS galaxies are different., Comment: Accepted for publication in A&A; A simple IDL code implementing our results is available at http://www.mpe.mpg.de/ir/Research/PEP/Tdust_sSFR ; This code predicts the dust temperature and the FIR/mm flux densities of a galaxy from its SFR, M* and z

Published

2013

10. The Mean Star-Forming Properties of QSO Host Galaxies

Author

Rosario, D. J., Trakhtenbrot, B., Lutz, D., Netzer, H., Trump, J. R., Silverman, J. D., Schramm, M., Lusso, E., Berta, S., Bongiorno, A., Brusa, M., Förster-Schreiber, N. M., Genzel, R., Lilly, S., Magnelli, B., Mainieri, V., Maiolino, R., Merloni, A., Mignoli, M., Nordon, R., Popesso, P., Salvato, M., Santini, P., Tacconi, L. J., and Zamorani, G.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Quasi-stellar objects (QSOs) occur in galaxies in which supermassive black holes (SMBHs) are growing substantially through rapid accretion of gas. Many popular models of the co-evolutionary growth of galaxies and SMBHs predict that QSOs are also sites of substantial recent star formation, mediated by important processes, such as major mergers, which rapidly transform the nature of galaxies. A detailed study of the star-forming properties of QSOs is a critical test of such models. We present a far-infrared Herschel/PACS study of the mean star formation rate (SFR) of a sample of spectroscopically observed QSOs to z~2 from the COSMOS extragalactic survey. This is the largest sample to date of moderately luminous AGNs studied using uniform, deep far-infrared photometry. We study trends of the mean SFR with redshift, black hole mass, nuclear bolometric luminosity and specific accretion rate (Eddington ratio). To minimize systematics, we have undertaken a uniform determination of SMBH properties, as well as an analysis of important selection effects within spectroscopic QSO samples that influence the interpretation of SFR trends. We find that the mean SFRs of these QSOs are consistent with those of normal massive star-forming galaxies with a fixed scaling between SMBH and galaxy mass at all redshifts. No strong enhancement in SFR is found even among the most rapidly accreting systems, at odds with several co-evolutionary models. Finally, we consider the qualitative effects on mean SFR trends from different assumptions about the star-forming properties of QSO hosts and redshift evolution of the SMBH-galaxy relationship. While limited currently by uncertainties, valuable constraints on AGN-galaxy co-evolution can emerge from our approach., Comment: 10 figures, 1 table; accepted for publication in Astronomy & Astrophysics

Published

2013

11. Reversal or no reversal: the evolution of the star formation rate-density relation up to z~1.6

Author

Ziparo, F., Popesso, P., Finoguenov, A., Biviano, A., Wuyts, S., Wilman, D., Salvato, M., Tanaka, M., Nandra, K., Lutz, D., Elbaz, D., Dickinson, M., Altieri, B., Aussel, H., Berta, S., Cimatti, A., Fadda, D., Genzel, R., Flo'ch, E. Le, Magnelli, B., Nordon, R., Poglitsch, A., Pozzi, F., Portal, M. Sanchez, Tacconi, L., Bauer, F. E., Brandt, W. N, Cappelluti, N., Cooper, M. C., and Mulchaey, J. S

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We investigate the evolution of the star formation rate (SFR)-density relation in the Extended Chandra Deep Field South (ECDFS) and the Great Observatories Origin Deep Survey (GOODS) fields up to z~1.6. In addition to the "traditional method", in which the environment is defined according to a statistical measurement of the local galaxy density, we use a "dynamical" approach, where galaxies are classified according to three different environment regimes: group, "filament-like", and field. Both methods show no evidence of a SFR-density reversal. Moreover, group galaxies show a mean SFR lower than other environments up to z~1, while at earlier epochs group and field galaxies exhibit consistent levels of star formation (SF) activity. We find that processes related to a massive dark matter halo must be dominant in the suppression of the SF below z~1, with respect to purely density-related processes. We confirm this finding by studying the distribution of galaxies in different environments with respect to the so-called Main Sequence (MS) of star-forming galaxies. Galaxies in both group and "filament-like" environments preferentially lie below the MS up to z~1, with group galaxies exhibiting lower levels of star-forming activity at a given mass. At z>1, the star-forming galaxies in groups reside on the MS. Groups exhibit the highest fraction of quiescent galaxies up to z~1, after which group, "filament-like", and field environments have a similar mix of galaxy types. We conclude that groups are the most efficient locus for star-formation quenching. Thus, a fundamental difference exists between bound and unbound objects, or between dark matter haloes of different masses., Comment: Accepted for publication in MNRAS

Published

2013

12. Cosmological model dependence of the galaxy luminosity function: far-infrared results in the Lemaitre-Tolman-Bondi model

Author

Iribarrem, A., Andreani, P., Gruppioni, C., February, S., Ribeiro, M. B., Berta, S., Floc'h, E. Le, Magnelli, B., Nordon, R., Popesso, P., Pozzi, F., and Riguccini, L.

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

This is the first paper of a series aiming at investigating galaxy formation and evolution in the giant-void class of the Lemaitre-Tolman-Bondi (LTB) models that best fits current cosmological observations. Here we investigate the Luminosity Function (LF) methodology, and how its estimates would be affected by a change on the cosmological model assumed in its computation. Are the current observational constraints on the allowed Cosmology enough to yield robust LF results? We use the far-infrared source catalogues built on the observations performed with the Herschel/PACS instrument, and selected as part of the PACS evolutionary probe (PEP) survey. Schechter profiles are obtained in redshift bins up to z approximately 4, assuming comoving volumes in both the standard model, that is, Friedmann-Lemaitre-Robertson-Walker metric with a perfect fluid energy-momentum tensor, and non-homogeneous LTB dust models, parametrized to fit the current combination of results stemming from the observations of supernovae Ia, the cosmic microwave background, and baryonic acoustic oscillations. We find that the luminosity functions computed assuming both the standard model and LTB void models show in general good agreement. However, the faint-end slope in the void models shows a significant departure from the standard model up to redshift 0.4. We demonstrate that this result is not artificially caused by the used LF estimator which turns out to be robust under the differences in matter-energy density profiles of the models. The differences found in the LF slopes at the faint end are due to variation in the luminosities of the sources, which depend on the geometrical part of the model. It follows that either the standard model is over-estimating the number density of faint sources or the void models are under-estimating it., Comment: 23 pages, 11 figures. Accepted for publication in A&A

Published

2013

13. The lack of star formation gradients in galaxy groups up to z~1.6

Author

Ziparo, Felicia, Popesso, Paola, Biviano, Andrea, Finoguenov, Alexis, Wuyts, Stijn, Wilman, Dave, Salvato, Mara, Tanaka, Masayuki, Ilbert, Olivier, Nandra, Kirpal, Lutz, Dieter, Elbaz, David, Dickinson, Mark, Altieri, Bruno, Aussel, Herve', Berta, Stefano, Cimatti, Andrea, Fadda, Dario, Genzel, Reinhard, Flo'ch, Emeric Le, Magnelli, Benjamin, Nordon, R., Poglitsch, Albrecht, Pozzi, Francesca, Sanchez-Portal, Miguel, Tacconi, Linda, Bauer, Franz, Brandt, W. Niel, Cappelluti, Nico, Cooper, M., and Mulchaey, John

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

In the local Universe, galaxy properties show a strong dependence on environment. In cluster cores, early type galaxies dominate, whereas star-forming galaxies are more and more common in the outskirts. At higher redshifts and in somewhat less dense environments (e.g. galaxy groups), the situation is less clear. One open issue is that of whether and how the star formation rate (SFR) of galaxies in groups depends on the distance from the centre of mass. To shed light on this topic, we have built a sample of X-ray selected galaxy groups at 010^10.3 M_sun in order to have a high spectroscopic completeness. As we use only spectroscopic redshifts, our results are not affected by uncertainties due to projection effects. We use several SFR indicators to link the star formation (SF) activity to the galaxy environment. Taking advantage of the extremely deep mid-infrared Spitzer MIPS and far-infrared Herschel PACS observations, we have an accurate, broad-band measure of the SFR for the bulk of the star-forming galaxies. We use multi-wavelength SED fitting techniques to estimate the stellar masses of all objects and the SFR of the MIPS and PACS undetected galaxies. We analyse the dependence of the SF activity, stellar mass and specific SFR on the group-centric distance, up to z~1.6, for the first time. We do not find any correlation between the mean SFR and group-centric distance at any redshift. We do not observe any strong mass segregation either, in agreement with predictions from simulations. Our results suggest that either groups have a much smaller spread in accretion times with respect to the clusters and that the relaxation time is longer than the group crossing time., Comment: Accepted for publication in MNRAS

Published

2013

14. Molecular gas mass functions of normal star forming galaxies since z~3

Author

Berta, S., Lutz, D., Nordon, R., Genzel, R., Magnelli, B., Popesso, P., Rosario, D., Saintonge, A., Wuyts, S., and Tacconi, L. J.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We use deep far-infrared data from the PEP/GOODS-Herschel surveys and rest frame ultraviolet photometry to study the evolution of the molecular gas mass function of normal star forming galaxies. Computing the molecular gas mass, M(mol), by scaling star formation rates (SFR) through depletion timescales, or combining IR luminosity and obscuration properties as in Nordon et al., we obtain M(mol) for roughly 700, z=0.2-3.0 galaxies near the star forming "main sequence". The number density of galaxies follows a Schechter function of M(mol). The characteristic mass M* is found to strongly evolve up to z~1, and then to flatten at earlier epochs, resembling the infrared luminosity evolution of similar objects. At z~1, our result is supported by an estimate based on the stellar mass function of star forming galaxies and gas fraction scalings from the PHIBSS survey. We compare our measurements to results from current models, finding better agreement with those that are treating star formation laws directly rather than in post-processing. Integrating the mass function, we study the evolution of the M(mol) density and its density parameter Omega(mol)., Comment: Accepted for publication on A&A; v.2 updated to match accepted manuscript

Published

2013

15. The Herschel-PEP survey: evidence for downsizing in the hosts of dusty star-forming systems

Author

Magliocchetti, M., Popesso, P., Rosario, D., Lutz, D., Aussel, H., Berta, S., Altieri, B., Andreani, P., Cepa, J., Castaneda, H., Cimatti, A., Elbaz, D., Genzel, R., Grazian, A., Gruppioni, C., Ilbert, O., Floc'h, E. Le, Magnelli, B., Maiolino, R., Nordon, R., Poglitsch, A., Pozzi, F., Riguccini, L., Rodighiero, G., Sanchez-Portal, M., Santini, P., Schreiber, N. M. Forster, Sturm, E., Tacconi, L., and Valtchanov, I.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

By making use of Herschel-PEP observations of the COSMOS and Extended Groth Strip fields, we have estimated the dependence of the clustering properties of FIR-selected sources on their 100um fluxes. Our analysis shows a tendency for the clustering strength to decrease with limiting fluxes: r0(S100um >8 mJy)~4.3 Mpc and r0(S100um >5 mJy)~5.8 Mpc. These values convert into minimum halo masses Mmin~10^{11.6} Msun for sources brighter than 8 mJy and Mmin~10^{12.4} Msun for S100um > 5 mJy galaxies. We show such an increase of the clustering strength to be due to an intervening population of z~2 sources, which are very strongly clustered and whose relative contribution, equal to about 10% of the total counts at S100um > 2 mJy, rapidly decreases for brighter flux cuts. By removing such a contribution, we find that z <~ 1 FIR galaxies have approximately the same clustering properties, irrespective of their flux level. The above results were then used to investigate the intrinsic dependence on cosmic epoch of the clustering strength of dusty star-forming galaxies between z~0 and z~2.5. In order to remove any bias in the selection process, the adopted sample only includes galaxies observed at the same rest-frame wavelength, lambda~60 um, which have comparable luminosities and therefore star-formation rates (SFR>~100 Msun/yr). Our analysis shows that the same amount of (intense) star forming activity takes place in extremely different environments at the different cosmological epochs. For z<~1 the hosts of such star forming systems are small, Mmin~10^{11} Msun, isolated galaxies. High (z~2) redshift star formation instead seems to uniquely take place in extremely massive/cluster-like halos, Mmin~10^{13.5} Msun, which are associated with the highest peaks of the density fluctuation field at those epochs. (abridged), Comment: 12 pages, 8 figures, to appear in MNRAS

Published

2013

16. On the redshift evolution (0 < z < 4) of dust attenuation and of the total (UV+IR) star formation rate density

Author

Burgarella, D., Buat, V., Gruppioni, C., Cucciati, O., Heinis, S., Berta, S., Bethermin, M., Bock, J., Cooray, A., Dunlop, J. S., Farrah, D., Franceschini, A., Floc'h, E. Le, Lutz, D., Magnelli, B., Nordon, R., Oliver, S. J., Page, M. J., Popesso, P., Pozzi, F., Riguccini, L., Vaccari, M., and Viero, M.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Using new homogeneous LFs in the FUV and in the FIR Herschel/PEP and Herschel/HerMES, we study the evolution of the dust attenuation with redshift. With this information in hand, we are able to estimate the redshift evolution of the total (FUV + FIR) star formation rate density SFRD_TOT. By integrating SFRD_TOT, we follow the mass building and analyze the redshift evolution of the stellar mass density (SMD). This letter aims at providing a complete view of star formation from the local universe to z = 4 and, using assumptions on earlier star formation history, compares this evolution to what was known before in an attempt to draw a homogeneous picture of the global evolution of star formation in galaxies. The main conclusions of this letter are: 1) the dust attenuation A_FUV is found to increase from z = 0 to z \sim 1.2 and then starts to decrease up to our last data point at z = 3.6; 2) the estimated SFRD confirms published results up to z = 2. At z > 2, we observe either a plateau or a small increase up to z = 3 and then a likely decrease up to z = 3.6; 3) the peak of A_FUV is delayed with respect to the plateau of SFRD_TOT and a likely origin might be found in the evolution of the bright ends of the FUV and FIR LFs; 4) using assumptions (namely exponential rise and linear rise with time) for the evolution of the star formation density from z = 3.6 to z_form = 10, we integrate SFRD_TOT and find a good agreement with the published SMDs., Comment: Minor revisions and letter accepted for publication in A&A. Herschel is an ESA space observatory with science instruments provided by European-led Principal Investigator consortia and with important participation from NASA

Published

2013

17. PHIBSS: molecular gas, extinction, star formation and kinematics in the z=1.5 star forming galaxy EGS13011166

Author

Genzel, R., Tacconi, L. J., Kurk, J., Wuyts, S., Combes, F., Freundlich, J., Bolatto, A., Cooper, M. C., Neri, R., Nordon, R., Bournaud, F., Burkert, A., Comerford, J., Cox, P., Davis, M., Schreiber, N. M. Förster, García-Burillo, S., Gracia-Carpio, J., Lutz, D., Naab, T., Newman, S., Saintonge, A., Griffin, K. Shapiro, Shapley, A., Sternberg, A., and Weiner, B.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We report matched resolution, imaging spectroscopy of the CO J=3-2 line (with the IRAM Plateau de Bure millimeter interferometer) and of the H-alpha line (with LUCI at the Large Binocular Telescope)in the massive z=1.53 main-sequence galaxy EGS 13011166, as part of the "Plateau de Bure high-z, blue sequence survey (PHIBSS). We combine these data with HST V-J-J-H-band maps to derive spatially resolved distributions of stellar surface density, star formation rate, molecular gas surface density, optical extinction and gas kinematics. The spatial distribution and kinematics of the ionized and molecular gas are remarkably similar and are well modeled by a turbulent, globally Toomre unstable rotating disk. The stellar surface density distribution is smoother than the clumpy rest-frame UV/optical light distribution, and peaks in an obscured, star forming massive bulge near the dynamical center. The molecular gas surface density and the effective optical screen extinction track each other and are well modeled by a 'mixed' extinction model. The inferred slope of the spatially resolved molecular gas to star formation rate relation depends strongly on the adopted extinction model and can vary from 0.8 to 1.7. For the preferred mixed dust-gas model we find a near linear slope., Comment: submitted to the Astrophysical Journal

Published

2013

18. The deepest Herschel-PACS far-infrared survey: number counts and infrared luminosity functions from combined PEP/GOODS-H observations

Author

Magnelli, B., Popesso, P., Berta, S., Pozzi, F., Elbaz, D., Lutz, D., Dickinson, M., Altieri, B., Andreani, P., Aussel, H., Béthermin, M., Bongiovanni, A., Cepa, J., Charmandaris, V., Chary, R. R., Cimatti, A., Daddi, E., Schreiber, N. M. Förster, Genzel, R., Gruppioni, C., Harwit, M., Hwang, H. S., Ivison, R. J., Magdis, G., Maiolino, R., Murphy, E., Nordon, R., Pannella, M., García, A. Pérez, Poglitsch, A., Rosario, D., Sanchez-Portal, M., Santini, P., Scott, D., Sturm, E., Tacconi, L. J., and Valtchanov, I.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present results from the deepest Herschel-PACS (Photodetector Array Camera and Spectrometer) far-infrared blank field extragalactic survey, obtained by combining observations of the GOODS (Great Observatories Origins Deep Survey) fields from the PACS Evolutionary Probe (PEP) and GOODS-Herschel key programmes. We describe data reduction and the construction of images and catalogues. In the deepest parts of the GOODS-S field, the catalogues reach 3-sigma depths of 0.9, 0.6 and 1.3 mJy at 70, 100 and 160 um, respectively, and resolve ~75% of the cosmic infrared background at 100um and 160um into individually detected sources. We use these data to estimate the PACS confusion noise, to derive the PACS number counts down to unprecedented depths and to determine the infrared luminosity function of galaxies down to LIR=10^11 Lsun at z~1 and LIR=10^12 Lsun at z~2, respectively. For the infrared luminosity function of galaxies, our deep Herschel far-infrared observations are fundamental because they provide more accurate infrared luminosity estimates than those previously obtained from mid-infrared observations. Maps and source catalogues (>3-sigma) are now publicly released. Combined with the large wealth of multi-wavelength data available for the GOODS fields, these data provide a powerful new tool for studying galaxy evolution over a broad range of redshifts., Comment: Accepted for publication in A&A; 22 pages, 13 figures; V2: updated to match accepted version

Published

2013

19. The Herschel PEP/HerMES Luminosity Function. I: Probing the Evolution of PACS selected Galaxies to z~4

Author

Gruppioni, C., Pozzi, F., Rodighiero, G., Delvecchio, I., Berta, S., Pozzetti, L., Zamorani, G., Andreani, P., Cimatti, A., Ilbert, O., Floch, E. Le, Lutz, D., Magnelli, B., Marchetti, L., Monaco, P., Nordon, R., Oliver, S., Popesso, P., Riguccini, L., Roseboom, I., Rosario, D. J., Sargent, M., Vaccari, M., Altieri, B., Aussel, H., Bongiovanni, A., Cepa, J., Daddi, E., Dominguez-Sanchez, H., Elbaz, D., Forster-Schreiber, N., Genzel, R., Iribarrem, A., Magliocchetti, M., Maiolino, R., Poglitsch, A., Garcia, A. Perez, Sanchez-Portal, M., Sturm, E., Tacconi, L., Valtchanov, I., Amblard, A., Arumugam, V., Bethermin, M., Bock, J., Boselli, A., Buat, V., Burgarella, D., Castro-Rodriguez, N., Cava, A., Chanial, P., Clements, D. L., Conley, A., Cooray, A., Dowell, C. D., Dwek, E., Eales, S., Franceschini, A., Glenn, J., Griffin, M., Hatziminaoglou, E., Ibar, E., Isaak, K., Ivison, R. J., Lagache, G., Levenson, L., Lu, N., Madden, S., Maffei, B., Mainetti, G., Nguyen, H. T., Halloran, B. O, Page, M. J., Panuzzo, P., Papageorgiou, A., Pearson, C. P., Perez-Fournon, I., Pohlen, M., Rigopoulou, D., Rowan-Robinson, M., Schulz, B., Scott, D., Seymour, N., Shupe, D. L., Smith, A. J., Stevens, J. A., Symeonidis, M., Trichas, M., Tugwell, K. E., Vigroux, L., Wang, L., Wright, G., Xu, C. K., Zemcov, M., Bardelli, S., Carollo, M., Contini, T., Fevre, O. Le, Lilly, S., Mainieri, V., Renzini, A., Scodeggio, M., and Zucca, E.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We exploit the deep and extended far infrared data sets (at 70, 100 and 160 um) of the Herschel GTO PACS Evolutionary Probe (PEP) Survey, in combination with the HERschel Multi tiered Extragalactic Survey (HerMES) data at 250, 350 and 500 um, to derive the evolution of the restframe 35 um, 60 um, 90 um, and total infrared (IR) luminosity functions (LFs) up to z~4. We detect very strong luminosity evolution for the total IR LF combined with a density evolution. In agreement with previous findings, the IR luminosity density increases steeply to z~1, then flattens between z~1 and z~3 to decrease at z greater than 3. Galaxies with different SEDs, masses and sSFRs evolve in very different ways and this large and deep statistical sample is the first one allowing us to separately study the different evolutionary behaviours of the individual IR populations contributing to the IR luminosity density. Galaxies occupying the well established SFR/stellar mass main sequence (MS) are found to dominate both the total IR LF and luminosity density at all redshifts, with the contribution from off MS sources (0.6 dex above MS) being nearly constant (~20% of the total IR luminosity density) and showing no significant signs of increase with increasing z over the whole 0.8

Published

2013

20. The Herschel census of infrared SEDs through cosmic time

Author

Symeonidis, Myrto, Vaccari, M., Berta, S., Page, M. J., Lutz, D., Arumugam, V., Aussel, H., Bock, J., Boselli, A., Buat, V., Capak, P. L., Clements, D. L., Conley, A., Conversi, L., Cooray, A., Dowell, C. D., Farrah, D., Franceschini, A., Giovannoli, E., Glenn, J., Griffin, M., Hatziminaoglou, E., Hwang, H. -S., Ibar, E., Ilbert, O., Ivison, R. J., Floc'h, E. Le, Lilly, S., Kartaltepe, J. S., Magnelli, B., Magdis, G., Marchetti, L., Nguyen, H. T., Nordon, R., O'Halloran, B., Oliver, S. J., Omont, A., Papageorgiou, A., Patel, H., Pearson, C. P., Perez-Fournon, I., Pohlen, M., Popesso, P., Pozzi, F., Rigopoulou, D., Riguccini, L., Rosario, D., Roseboom, I. G., Rowan-Robinson, M., Salvato, M., Schulz, B., Scott, Douglas, Seymour, N., Shupe, D. L., Smith, A. J., Valtchanov, I., Wang, L., Xu, C. K., Zemcov, M., and Wuyts, S.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Using Herschel data from the deepest SPIRE and PACS surveys (HerMES and PEP) in COSMOS and GOODS (N+S), we examine the dust properties of IR-luminous (L_IR>10^10 L_sun) galaxies at 0.145K) SEDs and cold (T<25K), cirrus-dominated SEDs are rare, with most sources being within the range occupied by warm starbursts such as M82 and cool spirals such as M51. We observe a luminosity-temperature (L-T) relation, where the average dust temperature of log[L_IR/L_sun]=12.5 galaxies is about 10K higher than that of their log[L_IR/L_sun]=10.5 counterparts. However, although the increased dust heating in more luminous systems is the driving factor behind the L-T relation, the increase in dust mass and/or starburst size with luminosity plays a dominant role in shaping it. Our results show that the dust conditions in IR-luminous sources evolve with cosmic time: at high redshift, dust temperatures are on average up to 10K lower than what is measured locally. This is manifested as a flattening of the L-T relation, suggesting that (U)LIRGs in the early Universe are typically characterised by a more extended dust distribution and/or higher dust masses than local equivalent sources. Interestingly, the evolution in dust temperature is luminosity dependent, with the fraction of LIRGs with T<35K showing a 2-fold increase from z~0 to z~2, whereas that of ULIRGs with T<35K shows a 6-fold increase., Comment: 27 pages, 23 figures, 2 tables, accepted for publication in MNRAS

Published

2013

21. Nuclear Activity is more prevalent in Star-Forming Galaxies

Author

Rosario, D. J., Santini, P., Lutz, D., Netzer, H., Bauer, F. E., Berta, S., Magnelli, B., Popesso, P., Alexander, D., Brandt, W. N., Genzel, R., Maiolino, R., Mullaney, J. R., Nordon, R., Saintonge, A., Tacconi, L., and Wuyts, S.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We explore the question of whether low and moderate luminosity Active Galactic Nuclei (AGNs) are preferentially found in galaxies that are undergoing a transition from active star formation to quiescence. This notion has been suggested by studies of the UV-to-optical colors of AGN hosts, which find them to be common among galaxies in the so-called "Green Valley", a region of galaxy color space believed to be composed mostly of galaxies undergoing star-formation quenching. Combining the deepest current X-ray and Herschel. PACS far-infrared (FIR) observations of the two Chandra Deep Fields (CDFs) with redshifts, stellar masses and rest-frame photometry derived from the extensive and uniform multi-wavelength data in these fields, we compare the rest-frame U-V color distributions and SFR distributions of AGNs and carefully constructed samples of inactive control galaxies. The UV-to-optical colors of AGNs are consistent with equally massive inactive galaxies at redshifts out to z~2, but we show that such colors are poor tracers of star formation. While the FIR distributions of both star-forming AGNs and star-forming inactive galaxies are statistically similar, we show that AGNs are preferentially found in star-forming host galaxies, or, in other words, AGNs are less likely to be found in weakly star-forming or quenched galaxies. We postulate that, among X-ray selected AGNs of low and moderate accretion luminosities, the supply of cold gas primarily determines the accretion rate distribution of the nuclear black holes., Comment: 14 pages, 8 Figures, 1 Table, accepted by ApJ

Published

2013

22. Panchromatic spectral energy distributions of Herschel sources

Author

Berta, S., Lutz, D., Santini, P., Wuyts, S., Rosario, D., Brisbin, D., Cooray, A., Franceschini, A., Gruppioni, C., Hatziminaoglou, E., Hwang, H. S., Floc'h, E. Le, Magnelli, B., Nordon, R., Oliver, S., Page, M. J., Popesso, P., Pozzetti, L., Pozzi, F., Riguccini, L., Rodighiero, G., Roseboom, I., Scott, Douglas, Symeonidis, M., Valtchanov, I., Viero, M., and Wang, L.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

(abridged) Far-infrared Herschel photometry from the PEP and HerMES programs is combined with ancillary datasets in the GOODS-N, GOODS-S, and COSMOS fields. Based on this rich dataset, we reproduce the restframe UV to FIR ten-colors distribution of galaxies using a superposition of multi-variate Gaussian modes. The median SED of each mode is then fitted with a modified version of the MAGPHYS code that combines stellar light, emission from dust heated by stars and a possible warm dust contribution heated by an AGN. The defined Gaussian grouping is also used to identify rare sources. The zoology of outliers includes Herschel-detected ellipticals, very blue z~1 Ly-break galaxies, quiescent spirals, and torus-dominated AGN with star formation. Out of these groups and outliers, a new template library is assembled, consisting of 32 SEDs describing the intrinsic scatter in the restframe UV-to-submm colors of infrared galaxies. This library is tested against L(IR) estimates with and without Herschel data included, and compared to eight other popular methods often adopted in the literature. When implementing Herschel photometry, these approaches produce L(IR) values consistent with each other within a median absolute deviation of 10-20%, the scatter being dominated more by fine tuning of the codes, rather than by the choice of SED templates. Finally, the library is used to classify 24 micron detected sources in PEP GOODS fields. AGN appear to be distributed in the stellar mass (M*) vs. star formation rate (SFR) space along with all other galaxies, regardless of the amount of infrared luminosity they are powering, with the tendency to lie on the high SFR side of the "main sequence". The incidence of warmer star-forming sources grows for objects with higher specific star formation rates (sSFR), and they tend to populate the "off-sequence" region of the M*-SFR-z space., Comment: Accepted for publication in A&A. Some figures are presented in low resolution. The new galaxy templates are available for download at the address http://www.mpe.mpg.de/ir/Research/PEP/uvfir_templ

Published

2013

23. The Far-Infrared, UV and Molecular Gas Relation in Galaxies up to z=2.5

Author

Nordon, R., Lutz, D., Saintonge, A., Berta, S., Wuyts, S., Schreiber, N. M. Forster, Genzel, R., Magnelli, B., Poglitsch, A., Popesso, P., Rosario, D., Sturm, E., and Tacconi, L. J.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We use the infrared excess (IRX) FIR/UV luminosity ratio to study the relation between the effective UV attenuation (A_IRX) and the UV spectral slope (beta) in a sample of 450 19.3. Thus, we are able to study galaxies on and even below the main SFR-stellar mass relation (main sequence). We find that main sequence galaxies form a tight sequence in the IRX--beta plane, which has a flatter slope than commonly used relations. This slope favors a SMC-like UV extinction curve, though the interpretation is model dependent. The scatter in the IRX-beta plane, correlates with the position of the galaxies in the SFR-M plane. Using a smaller sample of galaxies with CO gas masses, we study the relation between the UV attenuation and the molecular gas content. We find a very tight relation between the scatter in the IRX-beta plane and the specific attenuation (S_A), a quantity that represents the attenuation contributed by the molecular gas mass per young star. S_A is sensitive to both the geometrical arrangement of stars and dust, and to the compactness of the star forming regions. We use this empirical relation to derive a method for estimating molecular gas masses using only widely available integrated rest-frame UV and FIR photometry. The method produces gas masses with an accuracy between 0.12-0.16 dex in samples of normal galaxies between z~0 and z~1.5. Major mergers and sub-millimeter galaxies follow a different S_A relation., Comment: 11 pages, 6 pages appendix, 11 figures, accepted to ApJ

Published

2012

24. The effect of the high-pass filter data reduction technique on the Herschel PACS Photometer PSF and noise

Author

Popesso, P., Magnelli, B., Buttiglione, S., Lutz, D., Poglitsch, A., Berta, S., Nordon, R., Altieri, B., Aussel, H., Billot, N., Gastaud, R., Ali, B., Balog, Z., Cava, A., Feuchtgruber, H., Garcia, B. Gonzalez, Geis, N., Kiss, C., Klaas, U., Linz, H., Liu, X. C., Moor, A., Morin, B., Muller, T., Nielbock, M., Okumura, K., Osterhage, S., Ottensamer, R., Paladini, R., Pezzuto, S., Pritchard, V. Dublier, Regibo, S., Rodighiero, G., Royer, P., Sauvage, M., Sturm, E., Wetzstein, M., Wieprecht, E., and Wiezorrek, E.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We investigate the effect of the "high-pass filter" data reduction technique on the Herschel PACS PSF and noise of the PACS maps at the 70, 100 and 160 um bands and in medium and fast scan speeds. This branch of the PACS Photometer pipeline is the most used for cosmological observations and for point-source observations.The calibration of the flux loss due to the median removal applied by the PACS pipeline (high-pass filter) is done via dedicated simulations obtained by "polluting" real PACS timelines with fake sources at different flux levels. The effect of the data reduction parameter settings on the final map noise is done by using selected observations of blank fields with high data redundancy. We show that the running median removal can cause significant flux losses at any flux level. We analyse the advantages and disadvantages of several masking strategies and suggest that a mask based on putting circular patches on prior positions is the best solution to reduce the amount of flux loss. We provide a calibration of the point-source flux loss for several masking strategies in a large range of data reduction parameters, and as a function of the source flux. We also show that, for stacking analysis, the impact of the high-pass filtering effect is to reduce significantly the clustering effect. The analysis of the global noise and noise components of the PACS maps shows that the dominant parameter in determining the final noise is the high-pass filter width. We also provide simple fitting functions to build the error map from the coverage map and to estimate the cross-correlation correction factor in a representative portion of the data reduction parameter space., Comment: 32 pages, 28 figures, submitted to A&A

Published

2012

25. Dust temperature and CO-to-H2 conversion factor variations in the SFR-M* plane

Author

Magnelli, B., Saintonge, A., Lutz, D., Tacconi, L. J., Berta, S., Bournaud, F., Charmandaris, V., Dannerbauer, H., Elbaz, D., Förster-Schreiber, N. M., Graciá-Carpio, J., Ivison, R., Maiolino, R., Nordon, R., Popesso, P., Rodighiero, G., Santini, P., and Wuyts, S.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Deep Herschel imaging and 12CO(2-1) line luminosities from the IRAM PdBI are combined for a sample of 17 galaxies at z>1 from the GOODS-N field. The sample includes galaxies both on and above the main sequence (MS) traced by star-forming galaxies in the SFR-M* plane. The far-infrared data are used to derive dust masses, Mdust. Combined with an empirical prescription for the dependence of the gas-to-dust ratio on metallicity (GDR), the CO luminosities and Mdust values are used to derive for each galaxy the CO-to-H2 conversion factor, alpha_co. Like in the local Universe, the value of alpha_co is a factor of ~5 smaller in starbursts compared to normal star-forming galaxies (SFGs). We also uncover a relation between alpha_co and dust temperature (Tdust; alpha_co decreasing with increasing Tdust) as obtained from modified blackbody fits to the far-infrared data. While the absolute normalization of the alpha_co(Tdust) relation is uncertain, the global trend is robust against possible systematic biases in the determination of Mdust, GDR or metallicity. Although we cannot formally distinguish between a step and a smooth evolution of alpha_co with the dust temperature, we can conclude that in galaxies of near-solar metallicity, a critical value of Tdust=30K can be used to determine whether the appropriate alpha_co is closer to the starburst value (1.0 Msun(K kms pc^2)^-1, if Tdust>30K) or closer to the Galactic value (4.35 Msun (K kms pc^2)^-1, if Tdust<30K). This indicator has the great advantage of being less subjective than visual morphological classifications of mergers/SFGs, which can be difficult at high z because of the clumpy nature of SFGs. In the absence of far-infrared data, the offset of a galaxy from the main sequence (i.e., log[SSFR(galaxy)/SSFR_MS(M*,z)]) can be used to identify galaxies requiring the use of an alpha_co conversion factor lower than the Galactic value., Comment: Accepted for publication in Astronomy and Astrophysics (A&A); 15 pages, 6 figures; V2: updated reference list

Published

2012

26. Herschel observations of a z~2 stellar mass selected galaxy sample drawn from the GOODS NICMOS Survey

Author

Hilton, M., Conselice, C. J., Roseboom, I. G., Burgarella, D., Buat, V., Berta, S., Béthermin, M., Bock, J., Chapman, S. C., Clements, D. L., Conley, A., Conversi, L., Cooray, A., Farrah, D., Ibar, E., Magdis, G., Magnelli, B., Marsden, G., Nordon, R., Oliver, S. J., Page, M. J., Popesso, P., Pozzi, F., Schulz, B., Scott, Douglas, Smith, A. J., Symeonidis, M., Valtchanov, I., Viero, M., Wang, L., and Zemcov, M.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present a study of the far-IR properties of a stellar mass selected sample of 1.5 < z < 3 galaxies with log(M_*/M_sun) > 9.5 drawn from the GOODS NICMOS Survey (GNS), the deepest H-band Hubble Space Telescope survey of its type prior to the installation of WFC3. We use far-IR and sub-mm data from the PACS and SPIRE instruments on-board Herschel, taken from the PACS Evolutionary Probe (PEP) and Herschel Multi-Tiered Extragalactic Survey (HerMES) key projects respectively. We find a total of 22 GNS galaxies, with median log(M_*/M_sun) = 10.8 and z = 2.0, associated with 250 um sources detected with SNR > 3. We derive mean total IR luminosity log L_IR (L_sun) = 12.36 +/- 0.05 and corresponding star formation rate SFR_(IR+UV) = (280 +/- 40) M_sun/yr for these objects, and find them to have mean dust temperature T_dust ~ 35 K. We find that the SFR derived from the far-IR photometry combined with UV-based estimates of unobscured SFR for these galaxies is on average more than a factor of 2 higher than the SFR derived from extinction corrected UV emission alone, although we note that the IR-based estimate is subject to substantial Malmquist bias. To mitigate the effect of this bias and extend our study to fainter fluxes, we perform a stacking analysis to measure the mean SFR in bins of stellar mass. We obtain detections at the 2-4 sigma level at SPIRE wavelengths for samples with log(M_*/M_sun) > 10. In contrast to the Herschel detected GNS galaxies, we find that estimates of SFR_(IR+UV) for the stacked samples are comparable to those derived from extinction corrected UV emission, although the uncertainties are large. We find evidence for an increasing fraction of dust obscured star formation with stellar mass, finding SFR_IR/SFR_UV \propto M_*^{0.7 +/- 0.2}, which is likely a consequence of the mass--metallicity relation., Comment: Accepted for publication in MNRAS, 17 pages, 17 figures; added/updated references

Published

2012

27. Comparison of star formation rates from Halpha and infrared luminosities as seen by Herschel

Author

Domínguez, H., Mignoli, M., Pozzi, F., Calura, F., Cimatti, A., Gruppioni, C., Cepa, J., Sánchez-Portal, M., Zamorani, G., Berta, S., Elbaz, D., LeFloc'h, E., Granato, G. L., Lutz, D., Maiolino, R., Mateucci, F., Nair, P., Nordon, R., Pozzetti, L., Silva, L., Silverman, J., Wuyts, S., Carollo, C. M., Contini, T., Kneib, J. -P., LeFevrè, O., Lilly, S. J., Mainieri, V., Renzini, A., Scodeggio, M., Bardelli, S., Bolzonella, M., Bongiorno, A., Caputi, K., Coppa, G., Cucciati, O., de la Torre, S., de Ravel, L., Franzetti, P., Garilli, B., Iovino, A., Kampczyk, P., Knobel, C., Kovac, K., Lamareille, F., Borgne, J. -F. Le, Maier, V. le Brun. C., Magnelli, B., Pellò, R., Peng, Y., Pérez-Montero, E., Riccardelli, E., Riguccini, L., Tanaka, M., Tasca, L. A. M., Tresse, L., Vergani, D., and Zucca, E.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We empirically test the relation between the SFR(LIR) derived from the infrared luminosity, LIR, and the SFR(Ha) derived from the Ha emission line luminosity using simple conversion relations. We use a sample of 474 galaxies at z = 0.06 - 0.46 with both Ha detection (from 20k zCOSMOS survey) and new far-IR Herschel data (100 and 160 {\mu}m). We derive SFR(Ha) from the Ha extinction corrected emission line luminosity. We find a very clear trend between E(B - V) and LIR that allows to estimate extinction values for each galaxy even if the Ha emission line measurement is not reliable. We calculate the LIR by integrating from 8 up to 1000 {\mu}m the SED that is best fitting our data. We compare SFR(Ha) with the SFR(LIR). We find a very good agreement between the two SFR estimates, with a slope of m = 1.01 \pm 0.03 in the SFR(LIR) vs SFR(Ha) diagram, a normalization constant of a = -0.08 \pm 0.03 and a dispersion of sigma = 0.28 dex.We study the effect of some intrinsic properties of the galaxies in the SFR(LIR)-SFR(Ha) relation, such as the redshift, the mass, the SSFR or the metallicity. The metallicity is the parameter that affects most the SFR comparison. The mean ratio of the two SFR estimators log[SFR(LIR)/SFR(Ha)] varies by approx. 0.6 dex from metal-poor to metal-rich galaxies (8.1 < log(O/H) + 12 < 9.2). This effect is consistent with the prediction of a theoretical model for the dust evolution in spiral galaxies. Considering different morphological types, we find a very good agreement between the two SFR indicators for the Sa, Sb and Sc morphologically classified galaxies, both in slope and normalization. For the Sd, irregular sample (Sd/Irr), the formal best-fit slope becomes much steeper (m = 1.62 \pm 0.43), but it is still consistent with 1 at the 1.5 sigma level, because of the reduced statistics of this sub-sample., Comment: 13 pages, 11 figures, accepted for publication in MNRAS

Published

2012

28. The AGN content in luminous IR galaxies at z\sim2 from a global SED analysis including Herschel data

Author

Pozzi, F., Vignali, C., Gruppioni, C., Feltre, A., Fritz, J., Fadda, D., Andreani, P., Berta, S., Cimatti, A., Delvecchio, I., Lutz, D., Magnelli, B., Maiolino, R., Nordon, R., Popesso, P., Rodighiero, G., Rosario, D., Santini, P., and Vaccari, M.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We use Herschel-PACS far-infrared data, combined with previous multi-band information and mid-IR spectra, to properly account for the presence of an active nucleus and constrain its energetic contribution in luminous infrared (IR) sources at z\sim2. The sample is composed of 24 sources in the GOODS-South field, with typical IR luminosity of 10^{12} Lo. Data from the 4 Ms Chandra X-ray imaging in this field are also used to identify and characterize AGN emission. We reproduce the observed spectral energy distribution (SED), decomposed into a host-galaxy and an AGN component. A smooth-torus model for circum-nuclear dust is used to account for the direct and re-processed contribution from the AGN. We confirm that galaxies with typical L_{8-1000um}\sim10^{12}Lo at z\sim2 are powered predominantly by star-formation. An AGN component is present in nine objects (\sim35% of the sample) at the 3sigma confidence level, but its contribution to the 8-1000 um emission accounts for only \sim5% of the energy budget. The AGN contribution rises to \sim23% over the 5-30 um range (in agreement with Spitzer IRS results) and to \sim60% over the narrow 2-6 um range. The presence of an AGN is confirmed by X-ray data for 3 (out of nine) sources, with X-ray spectral analysis indicating the presence of significant absorption, i.e. NH\sim10^{23}-10^{24} cm^{-2}. An additional source shows indications of obscured AGN emission from X-ray data. The comparison between the mid-IR--derived X-ray luminosities and those obtained from X-ray data suggests that obscuration is likely present also in the remaining six sources that harbour an AGN according to the SED-fitting analysis., Comment: 12 pages, including 5 figures. Accepted for publication in MNRAS

Published

2012

29. The Mean Star Formation Rate of X-ray selected Active Galaxies and its Evolution from z=2.5: Results from PEP-Herschel

Author

Rosario, D. J., Santini, P., Lutz, D., Shao, L., Maiolino, R., Alexander, D. M., Altieri, B., Andreani, P., Aussel, H., Bauer, F. E., Berta, S., Bongiovanni, A., Brandt, W. N., Brusa, M., Cepa, J., Cimatti, A., Cox, T. J., Daddi, E., Elbaz, D., Fontana, A., Schreiber, N. M. Förster, Genzel, R., Grazian, A., Floch, E. Le, Magnelli, B., Mainieri, V., Netzer, H., Nordon, R., Garcia, I. Pérez, Poglitsch, A., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Salvato, M., Sanchez-Portal, M., Sturm, E., Tacconi, L. J., Valtchanov, I., and Wuyts, S.

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

(Abridged) We study relationships between the SFR and the nuclear properties of X-ray selected AGNs out to z=2.5, using far-IR data in three extragalactic deep fields as part of the PACS Evolutionary Probe (PEP) program. Guided by studies of intrinsic infra-red AGN SEDs, we show that the majority of the FIR emission in AGNs is produced by cold dust heated by star-formation. We uncover characteristic redshift-dependent trends between the mean FIR luminosity (L_fir) and accretion luminosity (L_agn) of AGNs. At low AGN luminosities, accretion and SFR are uncorrelated at all redshifts, consistent with a scenario where most low-luminosity AGNs are primarily fueled by secular processes in their host galaxies. At high AGN luminosities, a significant correlation is observed between L_fir and L_agn, but only among AGNs at low and moderate redshifts (z<1). We interpret this as a signature of the increasing importance of major-mergers in driving both the growth of super-massive black holes (SMBHs) and global star-formation in their hosts at high AGN luminosities. However, we also find that the enhancement of SFR in luminous AGNs weakens or disappears at high redshifts (z>1). This suggests that the role of mergers in SMBH-galaxy co-evolution is less important at these epochs. At all redshifts, we find essentially no relationship between L_fir and nuclear obscuration across five orders of magnitude in obscuring column density, suggesting that various different mechanisms are likely to be responsible for obscuring X-rays in active galaxies. We explain our results within a scenario in which two different modes of SMBH fueling operate among low- and high-luminosity AGNs. We postulate, guided by emerging knowledge about the properties of high redshift galaxies, that the dominant mode of accretion among high-luminosity AGNs evolves with redshift., Comment: 18 pages, 9 figures, 3 tables

Published

2012

30. A Herschel view of the far-infrared properties of submillimetre galaxies

Author

Magnelli, B., Lutz, D., Santini, P., Saintonge, A., Berta, S., Albrecht, M., Altieri, B., Andreani, P., Aussel, H., Bertoldi, F., Bethermin, M., Bongiovanni, A., Capak, P., Chapman, S., Cepa, J., Cimatti, A., Cooray, A., Daddi, E., Danielson, A. L. R., Dannerbauer, H., Dunlop, J. S., Elbaz, D., Farrah, D., Schreiber, N. M. Förster, Genzel, R., Hwang, H. S., Ibar, E., Ivison, R. J., Floc'h, E. Le, Magdis, G., Maiolino, R., Nordon, R., Oliver, S. J., Garcìa, A. Pèrez, Poglitsch, A., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Rosario, D., Roseboom, I., Salvato, M., Sanchez-Portal, M., Scott, D., Smail, I., Sturm, E., Swinbank, A. M., Tacconi, L. J., Valtchanov, I., Wang, L., and Wuyts, S.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We study a sample of 61 submillimetre galaxies (SMGs) selected from ground-based surveys, with known spectroscopic redshifts and observed with Herschel as part of the PACS Evolutionary Probe (PEP) and the Herschel Multi-tiered Extragalactic Survey (HerMES) key programmes. We use the broad far-infrared wavelength coverage (100-600um) provided by the combination of PACS and SPIRE observations. Using a power-law temperature distribution model to derive infrared luminosities and dust temperatures, we measure a dust emissivity spectral index for SMGs of beta=2.0+/-0.2. Our results unveil the diversity of the SMG population. Some SMGs exhibit extreme infrared luminosities of ~10^13 Lsun and relatively warm dust components, while others are fainter (~10^12 Lsun) and are biased towards cold dust temperatures. The extreme infrared luminosities of some SMGs (LIR>10^12.7 Lsun, 26/61 systems) imply SFRs of >500Msun yr^-1. Such high SFRs are difficult to reconcile with a secular mode of star formation, and may instead correspond to a merger-driven stage in the evolution of these galaxies. Another observational argument in favour of this scenario is the presence of dust temperatures warmer than that of SMGs of lower luminosities (~40K as opposed to ~25K), consistent with observations of local ULIRGs triggered by major mergers and with results from hydrodynamic simulations of major mergers combined with radiative transfer calculations. Luminous SMGs are also offset from normal star-forming galaxies in the stellar mass-SFR plane, suggesting that they are undergoing starburst events with short duty cycles, compatible with the major merger scenario. On the other hand, a significant fraction of the low infrared luminosity SMGs have cold dust temperatures, are located close to the main sequence of star formation, and thus might be evolving through a secular mode of star formation. [abridged], Comment: Accepted for publication in Astronomy and Astrophysics (A&A); 37 pages, 17 figures

Published

2012

31. Enhanced star formation rates in AGN hosts with respect to inactive galaxies from PEP-Herschel observations

Author

Santini, P., Rosario, D. J., Shao, L., Lutz, D., Maiolino, R., Alexander, D. M., Altieri, B., Andreani, P., Aussel, H., Bauer, F. E., Berta, S., Bongiovanni, A., Brandt, W. N., Brusa, M., Cepa, J., Cimatti, A., Daddi, E., Elbaz, D., Fontana, A., Schreiber, N. M. Forster, Genzel, R., Grazian, A., Floc'h, E. Le, Magnelli, B., Mainieri, V., Nordon, R., Garcia, A. M. Perez, Poglitsch, A., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Salvato, M., Sanchez-Portal, M., Sturm, E., Tacconi, L. J., Valtchanov, I., and Wuyts, S.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We compare the average star formation (SF) activity in X-ray selected AGN hosts with mass-matched control inactive galaxies,including star forming and quiescent sources, at 0.510sigma) for bright AGNs. However, when comparing to star forming galaxies only, AGN hosts are broadly consistent with the locus of their `main sequence'. We investigate the relative far-IR luminosity distributions of active and inactive galaxies, and find a higher fraction of PACS detected, hence normal and highly star forming systems among AGN hosts. Although different interpretations are possible, we explain our findings as a consequence of a twofold AGN growth path: faint AGNs evolve through secular processes, with instantaneous AGN accretion not tightly linked to the current total SF in the host, while luminous AGNs co-evolve with their hosts through periods of enhanced AGN activity and SF, possibly through major mergers. While an increased SF with respect to non-AGNs of similar mass is expected in the latter, we interpret the modest SF offsets measured in low-Lx AGN hosts as either a) generated by non-synchronous accretion and SF histories in a merger scenario or b) due to possible connections between instantaneous SF and accretion that can be induced by smaller scale (non-major merger) mechanisms. Far-IR luminosity distributions favour the latter scenario., Comment: Final version

Published

2012

32. The evolution of the star formation activity per halo mass up to redshift ~ 1.6 as seen by Herschel

Author

Popesso, P., Biviano, A., Rodighiero, G., Baronchelli, I., Salvato, M., Saintonge, A., Finoguenov, A., Magnelli, B., Gruppioni, C., Pozzi, F., Lutz, D., Elbaz, D., Altieri, B., Andreani, P., Aussel, H., Berta, S., Capak, P., Cava, A., Cimatti, A., Coia, D., Daddi, E., Dannerbauer, H., Dickinson, M., Dasyra, K., Fadda, D., Schreiber, N. Förster, Genzel, R., Hwang, H. S., Kartaltepe, J., Ilbert, O., Floch, E. Le, Leiton, R., Magdis, G., Nordon, R., Patel, S., Poglitsch, A., Riguccini, L., Portal, M. Sanchez, Shao, L., Tacconi, L., Tomczak, A., Tran, K., and Valtchanov, I.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Star formation in massive galaxies is quenched at some point during hierarchical mass assembly. To understand where and when the quenching processes takes place, we study the evolution of the total star formation rate per unit total halo mass (\Sigma(SFR/M)) in three different mass scales: low mass halos (field galaxies), groups, and clusters, up to a redshift ~1.6. We use deep far-infrared PACS data at 100 and 160 um to accurately estimate the total star formation rate of the Luminous Infrared Galaxy population of 9 clusters with mass ~10^{15} M_{\odot}, and 9 groups/poor clusters with mass ~ 5 x 10^{13} M_{\odot}. Estimates of the field \Sigma(SFR/M) are derived from the literature, by dividing the star formation rate density by the mean comoving matter density of the universe. The field \Sigma(SFR/M) increases with redshift up to z~1 and it is constant thereafter. The evolution of the \Sigma(SFR/M)-z relation in galaxy systems is much faster than in the field. Up to redshift z~0.2, the field has a higher \Sigma(SFR/M) than galaxy groups and galaxy clusters. At higher redshifts, galaxy groups and the field have similar \Sigma(SFR/M), while massive clusters have significantly lower \Sigma(SFR/M) than both groups and the field. There is a hint of a reversal of the SFR activity vs. environment at z~1.6, where the group \Sigma(SFR/M) lies above the field \Sigma(SFR/M)-z relation. We discuss possible interpretations of our results in terms of the processes of downsizing, and star-formation quenching., Comment: 8 pages, 3 figures, accepted for publication on A&A

Published

2011

33. Far infrared constraints on the contamination by dust obscured galaxies of high-z dropout searches

Author

Boone, F., Schaerer, D., Pello, R., Lutz, D., Weiss, A., Egami, E., Smail, I., Rex, M., Rawle, T., Ivison, R., Laporte, N., Beelen, A., Combes, F., Blain, A. W., Richard, J., Kneib, J. -P., Zamojski, M., Dessauges-Zavadsky, M., Altieri, B., van der Werf, P., Swinbank, M., Perez-Gonzalez, P. G., Clement, B., Nordon, R., Magnelli, B., and Menten, K. M.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The spectral energy distributions (SED) of dusty galaxies at intermediate redshift may look similar to very high redshift galaxies in the optical/near infrared (NIR) domain. This can lead to the contamination of high redshift galaxy searches based on broad band optical/NIR photometry by lower redshift dusty galaxies as both kind of galaxies cannot be distinguished. The contamination rate could be as high as 50%. {This work shows how the far infrared (FIR) domain can help to recognize likely low-z interlopers in an optical/NIR search for high-z galaxies.} We analyse the FIR SEDs of two galaxies proposed as very high redshift ($z>7$) dropout candidates based on deep Hawk-I/VLT observations. The FIR SEDs are sampled with PACS/Herschel at 100 and 160\,$\mu$m, with SPIRE/Herschel at 250, 350 and 500\,$\mu$m and with LABOCA/APEX at 870\,$\mu$m. We find that redshifts $>7$ would imply extreme FIR SEDs (with dust temperatures $>100$\,K and FIR luminosities $>10^{13}$\,$L_{\odot}$). At z$\sim$2, instead, the SEDs of both sources would be compatible with that of typical ULIRGs/SMGs. Considering all the data available for these sources from visible to FIR we re-estimate the redshifts and we find $z\sim$1.6--2.5. Due to the strong spectral breaks observed in these galaxies, standard templates from the literature fail to reproduce the visible-near IR part of the SEDs even when additional extinction is included. These sources resemble strongly dust obscured galaxies selected in Spitzer observations with extreme visible-to-FIR colors, and the galaxy GN10 at $z=4$. Galaxies with similar SEDs could contaminate other high redshift surveys., Comment: Accepted for publication in A&A

Published

2011

34. The lesser role of starbursts for star formation at z=2

Author

Rodighiero, G., Daddi, E., Baronchelli, I., Cimatti, A., Renzini, A., Aussel, H., Popesso, P., Lutz, D., Andreani, P., Berta, S., Cava, A., Elbaz, D., Feltre, A., Fontana, A., Schreiber, N. M. Forster, Franceschini, A., Genzel, R., Grazian, A., Gruppioni, C., Ilbert, O., Floch, E. Le, Magdis, G., Magliocchetti, M., Magnelli, B., Maiolino, R., McCracken, H., Nordon, R., Poglitsch, A., Santini, P., Pozzi, F., Riguccini, L., Tacconi, L. J., Wuyts, S., and Zamorani, G.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Two main modes of star formation are know to control the growth of galaxies: a relatively steady one in disk-like galaxies, defining a tight star formation rate (SFR)-stellar mass sequence, and a starburst mode in outliers to such a sequence which is generally interpreted as driven by merging. Such starburst galaxies are rare but have much higher SFRs, and it is of interest to establish the relative importance of these two modes. PACS/Herschel observations over the whole COSMOS and GOODS-South fields, in conjunction with previous optical/near-IR data, have allowed us to accurately quantify for the first time the relative contribution of the two modes to the global SFR density in the redshift interval 1.51000M(sun)/yr, off-sequence sources significantly contribute to the SFR density (46+/-20%). We conclude that merger-driven starbursts play a relatively minor role for the formation of stars in galaxies, whereas they may represent a critical phase towards the quenching of star formation and morphological transformation in galaxies., Comment: Accepted for publication in ApJ Letters

Published

2011

35. PACS Evolutionary Probe (PEP) - A Herschel Key Program

Author

Lutz, D., Poglitsch, A., Altieri, B., Andreani, P., Aussel, H., Berta, S., Bongiovanni, A., Brisbin, D., Cava, A., Cepa, J., Cimatti, A., Daddi, E., Dominguez-Sanchez, H., Elbaz, D., Schreiber, N. M. Forster, Genzel, R., Grazian, A., Gruppioni, C., Harwit, M., Floc'h, E. Le, Magdis, G., Magnelli, B., Maiolino, R., Nordon, R., Garcia, A. M. Perez, Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Saintonge, A., Portal, M. Sanchez, Santini, P., Shao, L., Sturm, E., Tacconi, L. J., Valtchanov, I., Wetzstein, M., and Wieprecht, E.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Deep far-infrared photometric surveys studying galaxy evolution and the nature of the cosmic infrared background are a key strength of the Herschel mission. We describe the scientific motivation for the PACS Evolutionary Probe (PEP) guaranteed time key program and its role in the complement of Herschel surveys, and the field selection which includes popular multiwavelength fields such as GOODS, COSMOS, Lockman Hole, ECDFS, EGS. We provide an account of the observing strategies and data reduction methods used. An overview of first science results illustrates the potential of PEP in providing calorimetric star formation rates for high redshift galaxy populations, thus testing and superseeding previous extrapolations from other wavelengths, and enabling a wide range of galaxy evolution studies., Comment: 13 pages, 12 figures, accepted for publication in A&A

Published

2011

36. Building the cosmic infrared background brick by brick with Herschel/PEP

Author

Berta, S., Magnelli, B., Nordon, R., Lutz, D., Wuyts, S., Altieri, B., Andreani, P., Aussel, H., Castaneda, H., Cepa, J., Cimatti, A., Daddi, E., Elbaz, D., Schreiber, N. M. Foerster, Genzel, R., Floc'h, E. Le, Maiolino, R., Perez-Fournon, I., Poglitsch, A., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Sanchez-Portal, M., Sturm, E., Tacconi, L. J., and Valtchanov, I.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The cosmic infrared background (CIB) includes roughly half of the energy radiated by all galaxies at all wavelengths across cosmic time, as observed at the present epoch. The PACS Evolutionary Probe (PEP) survey is exploited here to study the CIB and its redshift differential, at 70, 100 and 160 micron, where the background peaks. Combining PACS observations of the GOODS-S, GOODS-N, Lockman Hole and COSMOS areas, we define number counts spanning over more than two orders of magnitude in flux: from ~1 mJy to few hundreds mJy. Stacking of 24 micron sources and P(D) statistics extend the analysis down to ~0.2 mJy. Taking advantage of the wealth of ancillary data in PEP fields, differential number counts and CIB are studied up to z=5. Based on these counts, we discuss the effects of confusion on PACS blank field observations and provide confusion limits for the three bands considered. The total CIB surface brightness emitted above PEP 3 sigma flux limits is 4.52 +/- 1.18, 8.35 +/- 0.95 and 9.49 +/- 0.59 [nW/m2/sr] at 70, 100, and 160 micron, respectively. These values correspond to 58 +/- 7% and 74 +/- 5% of the COBE/DIRBE CIB direct measurements at 100 and 160 micron. Employing the P(D) analysis, these fractions increase to ~65% and ~89%. More than half of the resolved CIB was emitted at redshift z<=1. The 50%-light redshifts lie at z=0.58, 0.67 and 0.73 at the three PACS wavelengths. The distribution moves towards earlier epochs at longer wavelengths: while the 70 micron CIB is mainly produced by z<=1.0 objects, the contribution of z>1.0 sources reaches 50% at 160 micron. Most of the CIB resolved in the three PACS bands was emitted by galaxies with infrared luminosities in the range 1e11-1e12 L(sun)., Comment: Proposed for acceptance on A&A

Published

2011

37. The impact of evolving infrared spectral energy distributions of galaxies on star formation rate estimates

Author

Nordon, R., Lutz, D., Genzel, R., Berta, S., Wuyts, S., Magnelli, B., Altieri, B., Andreani, P., Aussel, H., Bongiovanni, A., Cepa, J., Cimatti, A., Daddi, E., Fadda, D., Schreiber, N. M. Forster, Lagache, G., Maiolino, R., Garcia, A. M. Perez, Poglitsch, A., Popesso, P., Pozzi, F., Rodighiero, G., Rosario, D., Saintonge, A., Sanchez-Portal, M., Santini, P., Sturm, E., Tacconi, L. J., Valtchanov, I., and Yan, L.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We combine Herschel-PACS data from the PEP program with Spitzer 24 um and 16 um photometry and ultra deep IRS mid-infrared spectra, to measure the mid- to far-infrared spectral energy distribution (SED) of 0.7

Published

2011

38. Evolution of Dust Temperature of Galaxies through Cosmic Time as seen by Herschel

Author

Hwang, H. S., Elbaz, D., Magdis, G. E., Daddi, E., Symeonidis, M., Altieri, B., Amblard, A., Andreani, P., Arumugam, V., Auld, R., Aussel, H., Babbedge, T., Berta, S., Blain, A., Bock, J., Bongiovanni, A., Boselli, A., Buat, V., Burgarella, D., Castro-Rodriguez, N., Cava, A., Cepa, J., Chanial, P., Chapin, E., Chary, R. -R., Cimatti, A., Clements, D. L., Conley, A., Conversi, L., Cooray, A., Dannerbauer, H., Dickinson, M., Dominguez, H., Dowell, C. D., Dunlop, J. S., Dwek, E., Eales, S., Farrah, D., Schreiber, N. Forster, Fox, M., Franceschini, A., Gear, W., Genzel, R., Glenn, J., Griffin, M., Gruppioni, C., Halpern, M., Hatziminaoglou, E., Ibar, E., Isaak, K., Ivison, R. J., Jeong, W. -S., Lagache, G., Borgne, D. Le, Floc'h, E. Le, Lee, H. M., Lee, J. C., Lee, M. G., Levenson, L., Lu, N., Lutz, D., Madden, S., Maffei, B., Magnelli, B., Mainetti, G., Maiolino, R., Marchetti, L., Mortier, A. M. J., Nguyen, H. T., Nordon, R., O'Halloran, B., Okumura, K., Oliver, S. J., Omont, A., Page, M. J., Panuzzo, P., Papageorgiou, A., Pearson, C. P., Perez-Fournon, I., Garcia, A. M. Perez, Poglitsch, A., Pohlen, M., Popesso, P., Pozzi, F., Rawlings, J. I., Rigopoulou, D., Riguccini, L., Rizzo, D., Rodighiero, G., Roseboom, I. G., Rowan-Robinson, M., Saintonge, A., Portal, M. Sanchez, Santini, P., Sauvage, M., Schulz, B., Scott, Douglas, Seymour, N., Shao, L., Shupe, D. L., Smith, A. J., Stevens, J. A., Sturm, E., Tacconi, L., Trichas, M., Tugwell, K. E., Vaccari, M., Valtchanov, I., Vieira, J. D., Vigroux, L., Wang, L., Ward, R., Wright, G., Xu, C. K., and Zemcov, M.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We study the dust properties of galaxies in the redshift range 0.10.5 with L_IR>5x10^{10} L_\odot, appears to be 2-5 K colder than that of AKARI-selected local galaxies with similar luminosities; and the dispersion in T_dust for high-z galaxies increases with L_IR due to the existence of cold galaxies that are not seen among local galaxies. We show that this large dispersion of the L_IR-T_dust relation can bridge the gap between local star-forming galaxies and high-z submillimeter galaxies (SMGs). We also find that three SMGs with very low T_dust (<20 K) covered in this study have close neighbouring sources with similar 24-\mum brightness, which could lead to an overestimation of FIR/(sub)millimeter fluxes of the SMGs., Comment: 9 pages, 6 figures, To appear in MNRAS

Published

2010

39. Herschel FIR counterparts of selected Ly-alpha emitters at z~2.2. Fast evolution since z~3 or missed obscured AGNs?

Author

Bongiovanni, A., Oteo, I., Cepa, J., Garcia, A. M. Perez, Sanchez-Portal, M., Ederoclite, A., Aguerri, J. A. L., Alfaro, E. J., Altieri, B., Andreani, P., Aparicio-Villegas, M. T., Aussel, H., Benitez, N., Berta, S., Broadhurst, T., Cabrera-Cano, J., Castander, F. J., Cava, A., Cervino, M., Chulani, H., Cimatti, A., Cristobal-Hornillos, D., Daddi, E., Dominguez, H., Elbaz, D., Fernandez-Soto, A., Schreiber, N. Forster, Genzel, R., Gomez, M. F., Delgado, R. M. Gonzalez, Grazian, A., Gruppioni, C., Herreros, J. M., Iglesias-Groth, S., Infante, L., Lutz, D., Magnelli, B., Magdis, G., Maiolino, R., Marquez, I., Martinez, V. J., Masegosa, J., Moles, M., Molino, A., Nordon, R., del Olmo, A., Perea, J., Poglitsch, A., Popesso, P., Pozzi, F., Prada, F., Quintana, J. M., Riguccini, L., Rodighiero, G., Saintonge, A., Sanchez, S. F., Santini, P., Shao, L., Sturm, E., Tacconi, L., and Valtchanov, I.

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

Ly-alpha emitters (LAEs) are seen everywhere in the redshift domain from local to z~7. Far-infrared (FIR) counterparts of LAEs at different epochs could provide direct clues on dust content, extinction, and spectral energy distribution (SED) for these galaxies. We search for FIR counterparts of LAEs that are optically detected in the GOODS-North field at redshift z~2.2 using data from the Herschel Space Telescope with the Photodetector Array Camera and Spectrometer (PACS). The LAE candidates were isolated via color-magnitude diagram using the medium-band photometry from the ALHAMBRA Survey, ancillary data on GOODS-North, and stellar population models. According to the fitting of these spectral synthesis models and FIR/optical diagnostics, most of them seem to be obscured galaxies whose spectra are AGN-dominated. From the analysis of the optical data, we have observed a fraction of AGN or composite over source total number of ~0.75 in the LAE population at z~2.2, which is marginally consistent with the fraction previously observed at z=2.25 and even at low redshift (0.2

Published

2010

40. A First Glimpse into the far-IR properties of high-z UV-selected Galaxies: Herschel/PACS observations of z~3 LBGs

Author

Magdis, G. E., Elbaz, D., Hwang, H. S., Daddi, E., Rigopoulou, D., Altieri, B., Andreani, P., Aussel, H., Berta, S., Cava, A., Bongiovanni, A., Cepa, J., Cimatti, A., Dickinson, M., Dominguez, H., Schreiber, N. Förster, Genzel, R., Huang, J. -S., Lutz, D., Maiolino, R., Magnelli, B., Morrison, G. E., Nordon, R., García, A. M. Pérez, Poglitsch, A., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Saintonge, A., Santini, P., Sanchez-Portal, M., Shao, L., Sturm, E., Tacconi, L., and Valtchanov, I.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present first insights into the far-IR properties for a sample of IRAC and MIPS-24um detected Lyman Break Galaxies (LBGs) at z ~ 3, as derived from observations in the northern field of the Great Observatories Origins Survey (GOODS-N) carried out with the PACS instrument on board the Herschel Space Observatory. Although none of our galaxies are detected by Herschel, we employ a stacking technique to construct, for the first time, the average spectral energy distribution of infrared luminous LBGs from UV to radio wavelengths. We derive a median IR luminosity of L_{IR} = 1.6 x 10^12 Lo, placing the population in the class of ultra luminous infrared galaxies (ULIRGs). Complementing our study with existing multi-wavelength data, we put constraints on the dust temperature of the population and find that for their L_{IR}, MIPS-LBGs are warmer than submm-luminous galaxies while they fall in the locus of the L_{IR}-T_{d} relation of the local ULIRGs. This, along with estimates based on the average SED, explains the marginal detection of LBGs in current sub-mm surveys and suggests that these latter studies introduce a bias towards the detection of colder ULIRGs in the high-z universe, while missing high-z ULIRGS with warmer dust., Comment: Accepted for publication at ApJL

Published

2010

41. Unveiling Far-Infrared Counterparts of Bright Submillimeter Galaxies Using PACS Imaging

Author

Dannerbauer, H., Daddi, E., Morrison, G. E., Altieri, B., Andreani, P., Aussel, H., Berta, S., Bongiovanni, A., Cava, A., Cepa, J., Cimatti, A., Dominguez, H., Elbaz, D., Schreiber, N. Forster, Genzel, R., Gruppioni, C., Horeau, B., Hwang, H. S., Floc'h, E. Le, Pennec, J. Le, Lutz, D., Magdis, G., Magnelli, B., Maiolino, R., Nordon, R., Garcia, A. M. Perez, Poglitsch, A., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Saintonge, A., Santini, P., Sanchez-Portal, M., Shao, L., Sturm, E., Tacconi, L., and Valtchanov, I.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present a search for Herschel-PACS counterparts of dust-obscured, high-redshift objects previously selected at submillimeter and millimeter wavelengths in the Great Observatories Origins Deep Survey North field. We detect 22 of 56 submillimeter galaxies (39%) with a SNR of >=3 at 100 micron down to 3.0 mJy, and/or at 160 micron down to 5.7 mJy. The fraction of SMGs seen at 160 micron is higher than that at 100 micron. About 50% of radio-identified SMGs are associated with PACS sources. We find a trend between the SCUBA/PACS flux ratio and redshift, suggesting that these flux ratios could be used as a coarse redshift indicator. PACS undetected submm/mm selected sources tend to lie at higher redshifts than the PACS detected ones. A total of 12 sources (21% of our SMG sample) remain unidentified and the fact that they are blank fields at Herschel-PACS and VLA 20 cm wavelength may imply higher redshifts for them than for the average SMG population (e.g., z>3-4). The Herschel-PACS imaging of these dust-obscured starbursts at high-redshifts suggests that their far-infrared spectral energy distributions have significantly different shapes than template libraries of local infrared galaxies., Comment: 6 pages, 4 figures. ApJ Letters in press

Published

2010

42. The dust content of high-z submillimeter galaxies revealed by Herschel

Author

Santini, P., Maiolino, R., Magnelli, B., Silva, L., Grazian, A., Altieri, B., Andreani, P., Aussel, H., Berta, S., Bongiovanni, A., Brisbin, D., Calura, F., Cava, A., Cepa, J., Cimatti, A., Daddi, E., Dannerbauer, H., Dominguez-Sanchez, H., Elbaz, D., Fontana, A., Schreiber, N. Forster, Genzel, R., Granato, G. L., Gruppioni, C., Lutz, D., Magdis, G., Magliocchetti, M., Matteucci, F., Nordon, R., Garcia, I. Perez, Poglitsch, A., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Saintonge, A., Sanchez-Portal, M., Shao, L., Sturm, E., Tacconi, L., and Valtchanov, I.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We use deep observations taken with the Photodetector Array Camera and Spectrometer (PACS), on board the Herschel satellite as part of the PACS evolutionary probe (PEP) guaranteed project along with submm ground-based observations to measure the dust mass of a sample of high-z submillimeter galaxies (SMGs). We investigate their dust content relative to their stellar and gas masses, and compare them with local star-forming galaxies. High-z SMGs are dust rich, i.e. they have higher dust-to-stellar mass ratios compared to local spiral galaxies (by a factor of 30) and also compared to local ultraluminous infrared galaxies (ULIRGs, by a factor of 6). This indicates that the large masses of gas typically hosted in SMGs have already been highly enriched with metals and dust. Indeed, for those SMGs whose gas mass is measured, we infer dust-to-gas ratios similar or higher than local spirals and ULIRGs. However, similarly to other strongly star-forming galaxies in the local Universe and at high-z, SMGs are characterized by gas metalicities lower (by a factor of a few) than local spirals, as inferred from their optical nebular lines, which are generally ascribed to infall of metal-poor gas. This is in contrast with the large dust content inferred from the far-IR and submm data. In short, the metalicity inferred from the dust mass is much higher (by more than an order of magnitude) than that inferred from the optical nebular lines. We discuss the possible explanations of this discrepancy and the possible implications for the investigation of the metalicity evolution at high-z., Comment: Accepted for publication in Astronomy & Astrophysics Letters. One reference updated

Published

2010

43. Herschel unveils a puzzling uniformity of distant dusty galaxies

Author

Elbaz, D., Hwang, H. S., Magnelli, B., Daddi, E., Aussel, H., Altieri, B., Amblard, A., Andreani, P., Arumugam, V., Auld, R., Babbedge, T., Berta, S., Blain, A., Bock, J., Bongiovanni, A., Boselli, A., Buat, V., Burgarella, D., Castro-Rodriguez, N., Cava, A., Cepa, J., Chanial, P., Chary, R. -R., Cimatti, A., Clements, D. L., Conley, A., Conversi, L., Cooray, A., Dickinson, M., Dominguez, H., Dowell, C. D., Dunlop, J. S., Dwek, E., Eales, S., Farrah, D., Schreiber, N. Forster, Fox, M., Franceschini, A., Gear, W., Genzel, R., Glenn, J., Griffin, M., Gruppioni, C., Halpern, M., Hatziminaoglou, E., Ibar, E., Isaak, K., Ivison, R. J., Lagache, G., Borgne, D. Le, Floc'h, E. Le, Levenson, L., Lu, N., Lutz, D., Madden, S., Maffei, B., Magdis, G., Mainetti, G., Maiolino, R., Marchetti, L., Mortier, A. M. J., Nguyen, H. T., Nordon, R., O'Halloran, B., Okumura, K., Oliver, S. J., Omont, A., Page, M. J., Panuzzo, P., Papageorgiou, A., Pearson, C. P., Fournon, I. Perez, Garcıa, A. M. Perez, Poglitsch, A., Pohlen, M., Popesso, P., Pozzi, F., Rawlings, J. I., Rigopoulou, D., Riguccini, L., Rizzo, D., Rodighiero, G., Roseboom, I. G., Rowan-Robinson, M., Saintonge, A., Sanchez-Portal, M., Santini, P., Sauvage, M., Schulz, B., Scott, Douglas, Seymour, N., Shao, L., Shupe, D. L., Smith, A. J., Stevens, J. A., Sturm, E., Symeonidis, M., Tacconi, L., Trichas, M., Tugwell, K. E., Vaccari, M., Valtchanov, I., Vieira, J., Vigroux, L., Wang, L., Ward, R., Wright, G., Xu, C. K., and Zemcov, M.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The Herschel Space Observatory enables us to accurately measure the bolometric output of starburst galaxies and active galactic nuclei (AGN) by directly sampling the peak of their far-infrared (IR) emission. Here we examine whether the spectral energy distribution (SED) and dust temperature of galaxies have strongly evolved since z~2.5. We use Herschel deep extragalactic surveys from 100 to 500um to compute total IR luminosities in galaxies down to the faintest levels, using PACS and SPIRE in the GOODS-North field (PEP and HerMES key programs). We show that measurements in the SPIRE bands can be used below the statistical confusion limit if information at higher spatial resolution is used to identify isolated galaxies whose flux is not boosted by bright neighbors. Below z~1.5, mid-IR extrapolations are correct for star-forming galaxies with a dispersion of only 40% (0.15dex), therefore similar to z~0 galaxies. This narrow distribution is puzzling when considering the range of physical processes that could have affected the SED of these galaxies. Extrapolations from only one of the 160um, 250um or 350um bands alone tend to overestimate the total IR luminosity. This may be explained by the lack of far-IR constraints around and above ~150um (rest-frame) on local templates. We also note that the dust temperature of luminous IR galaxies around z~1 is mildly colder by 10-15% than their local analogs and up to 20% for ULIRGs at z~1.6. Above z=1.5, distant galaxies are found to exhibit a substantially larger mid- over far-IR ratio, which could either result from stronger broad emission lines or warm dust continuum heated by a hidden AGN. Two thirds of the AGNs identified in the field with a measured redshift exhibit the same behavior as purely star-forming galaxies. Hence a large fraction of AGNs harbor star formation at very high SFR and in conditions similar to purely star-forming galaxies., Comment: Astronomy and Astrophysics, Herschel Special Issue, in press as a Letter; 5 pages

Published

2010

44. Star formation in AGN hosts in GOODS-N

Author

Shao, L., Lutz, D., Nordon, R., Maiolino, R., Alexander, D. M., Altieri, B., Andreani, P., Aussel, H., Bauer, F. E., Berta, S., Bongiovanni, A., Brandt, W. N., Brusa, M., Cava, A., Cepa, J., Cimatti, A., Daddi, E., Dominguez-Sanchez, H., Elbaz, D., Schreiber, N. M. Forster, Geis, N., Genzel, R., Grazian, A., Gruppioni, C., Magdis, G., Magnelli, B., Mainieri, V., Garcia, A. M. Perez, Poglitsch, A., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Rovilos, E., Saintonge, A., Salvato, M., Portal, M. Sanchez, Santini, P., Sturm, E., Tacconi, L. J., Valtchanov, I., Wetzstein, M., and Wieprecht, E.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Sensitive Herschel far-infrared observations can break degeneracies that were inherent to previous studies of star formation in high-z AGN hosts. Combining PACS 100 and 160um observations of the GOODS-N field with 2Msec Chandra data, we detect ~20% of X-ray AGN individually at >3sig. The host far-infrared luminosity of AGN with L2-10~10^43erg/s increases with redshift by an order of magnitude from z=0 to z~1. In contrast, there is little dependence of far-infrared luminosity on AGN luminosity, for L2-10<~10^44erg/s AGN at z>~1. We do not find a dependence of far-infrared luminosity on X-ray obscuring column, for our sample which is dominated by L2-10<10^44erg/s AGN. In conjunction with properties of local and luminous high-z AGN, we interpret these results as reflecting the interplay between two paths of AGN/host coevolution. A correlation of AGN luminosity and host star formation is traced locally over a wide range of luminosities and also extends to luminous high z AGN. This correlation reflects an evolutionary connection, likely via merging. For lower AGN luminosities, star formation is similar to that in non-active massive galaxies and shows little dependence on AGN luminosity. The level of this secular, non-merger driven star formation increasingly dominates over the correlation at increasing redshift., Comment: Accepted for publication in A&A Herschel issue. 4 pages, 6 figures

Published

2010

45. PEP: first Herschel probe of dusty galaxy evolution up to z~3

Author

Gruppioni, C., Pozzi, F., Andreani, P., Rodighiero, G., Cimatti, A., Altieri, B., Aussel, H., Berta, S., Bongiovanni, A., Brisbin, D., Cava, A., Cepa, J., Daddi, E., Dominguez-Sanchez, H., Elbaz, D., Schreiber, N. Forster, Genzel, R., Floc'h, E. Le, Lutz, D., Magdis, G., Magliocchetti, M., Magnelli, B., Maiolino, R., Nordon, R., Per'ez-García, A. M., Poglitsch, A., Popesso, P., Riguccini, L., Saintonge, A., Sanchez-Portal, M., Santini, P., Shao, L., Sturm, E., Tacconi, L., and Valtchanov, I.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We exploit the deepest existing far-infrared (FIR) data obtained so far by Herschel at 100 and 160 um in the GOODS-N, as part of the PACS Evolutionary Probe (PEP) survey, to derive for the first time the evolution of the rest-frame 60-um, 90-um, and total IR luminosity functions (LFs) of galaxies and AGNs from z=0 to unprecedented high redshifts (z~2-3). The PEP LFs were computed using the 1/Vmax method. The FIR sources were classified by means of a detailed broad- band SED-fitting analysis and spectral characterisation. Based on the best-fit model results, k-correction and total IR (8-1000 um) luminosity were obtained for each source. LFs (monochromatic and total) were then derived for various IR populations separately in different redshift bins and compared to backward evolution model predictions. We detect strong evolution in the LF to at least z~2. Objects with SEDs similar to local spiral galaxies are the major contributors to the star formation density (SFD) at z< 0.3, then, as redshift increases, moderate SF galaxies - most likely containing a low-luminosity AGN - start dominating up to z ~= 1.5. At >1.5 the SFD is dominated by the contributions of starburst galaxies. In agreement with previous findings, the comoving IR LD derived from our data evolves approximately as (1 + z)^(3.8+/-0.3) up to z~1, there being some evidence of flattening up to z~2., Comment: Accepted for publication in the A&A Herschel first results Special Issue

Published

2010

46. Herschel deep far-infrared counts through the Abell 2218 cluster-lens

Author

Altieri, B., Berta, S., Lutz, D., Kneib, J. -P., Metcalfe, L., Andreani, P., Aussel, H., Bongiovanni, A., Cava, A., Cepa, J., Ciesla, L., Cimatti, A., Daddi, E., Dominguez, H., Elbaz, D., Schreiber, N. M. Forster, Genzel, R., Gruppioni, C., Magnelli, B., Magdis, G., Maiolino, R., Nordon, R., Garcia, A. M. Perez, Poglitsch, A., Popesso, P., Pozzi, F., Richard, J., Riguccini, L., Rodighiero, G., Saintonge, A., Santini, P., Sanchez-Portal, M., Shao, L., Sturm, E., Tacconi, L. J., Valtchanov, I., Wetzstein, M., and Wieprecht, E.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Gravitational lensing by massive galaxy clusters allows study of the population of intrinsically faint infrared galaxies that lie below the sensitivity and confusion limits of current infrared and submillimeter telescopes. We present ultra-deep PACS 100 and 160 microns observations toward the cluster lens Abell 2218, to penetrate the Herschel confusion limit. We derive source counts down to a flux density of 1 mJy at 100 microns and 2 mJy at 160 microns, aided by strong gravitational lensing. At these levels, source densities are 20 and 10 beams/source in the two bands, approaching source density confusion at 160 microns. The slope of the counts below the turnover of the Euclidean-normalized differential curve is constrained in both bands and is consistent with most of the recent backwards evolutionary models. By integrating number counts over the flux range accessed by Abell 2218 lensing (0.94-35 mJy at 100 microns and 1.47-35 mJy at 160 microns, we retrieve a cosmic infrared background (CIB) surface brightness of ~8.0 and ~9.9 nW m^-2 sr^-1, in the respective bands. These values correspond to 55% (+/- 24%) and 77% (+/- 31%) of DIRBE direct measurements. Combining Abell 2218 results with wider/shallower fields, these figures increase to 62% (+/- 25%) and 88% (+/- 32%) CIB total fractions, resolved at 100 and 160 microns, disregarding the high uncertainties of DIRBE absolute values., Comment: Accepted for publication on the A&A Herschel Special Issue, final version

Published

2010

47. Far-infrared properties of submillimeter and optically faint radio galaxies

Author

Magnelli, B., Lutz, D., Berta, S., Altieri, B., Andreani, P., Aussel, H., Castaneda, H., Cava, A., Cepa, J., Cimatti, A., Daddi, E., Dannerbauer, H., Dominguez, H., Elbaz, D., Schreiber, N. Forster, Genzel, R., Grazian, A., Gruppioni, C., Magdis, G., Maiolino, R., Nordon, R., Fournon, I. Perez, Garcia, I. Perez, Poglitsch, A., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Saintonge, A., Santini, P., Sanchez-Portal, M., Shao, L., Sturm, E., Tacconi, L., Valtchanov, I., Wieprecht, E., and Wiezorrek, E.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We use deep observations obtained with the Photodetector Array Camera and Spectrometer (PACS) onboard the Herschel space observatory to study the far-infrared (FIR) properties of submm and optically faint radio galaxies (SMGs and OFRGs). From literature we compiled a sample of 35 securely identified SMGs and nine OFRGs located in the GOODS-N and the A2218 fields. This sample is cross-matched with our PACS 100 um and 160 um multi-wavelength catalogs. About half of the galaxies in our sample are detected with PACS. The dust temperatures and the infrared luminosities of our galaxies are derived by fitting their PACS and SCUBA 850 um (only the upper limits for the OFRGs) flux densities with a single modified (beta=1.5) black body function. The median dust temperature of our SMG sample is T=36+/-8K while for our OFRG sample it is T=47+/-3K. For both samples, median dust temperatures derived from Herschel data agree well with previous estimates. In particular, Chapman et al. (2005) found a dust temperature of T=36+/-7K for a large sample of SMGs assuming the validity of the FIR/radio correlation. The agreement between our studies confirms that the local FIR/radio correlation effectively holds at high redshift even though we find =2.17+/-0.19, a slightly lower value than that observed in local systems. The median IR luminosities of SMGs and OFRGs are 4.6*10^12 Lsun and 2.6*10^12 Lsun, respectively. We note that for both samples the IR luminosity estimates from the radio part of the spectral energy distribution are accurate, while estimates from the mid-IR are considerably (x3) more uncertain. Our observations confirm the remarkably high luminosities of SMGs and thus imply median star-formation rates of 960Msun yr^-1 for SMGs with S(850um)>5mJy and 460Msun yr^-1 for SMGs with S(850um)>2mJy, assuming a Chabrier IMF and no dominant AGN contribution to the far-infrared luminosity., Comment: Accepted for publication in the A&A Herschel special issue. 5 pages, 3 figures

Published

2010

48. The first Herschel view of the mass-SFR link in high-z galaxies

Author

Rodighiero, G., Cimatti, A., Gruppioni, C., Popesso, P., Andreani, P., Altieri, B., Aussel, H., Berta, S., Bongiovanni, A., Brisbin, D., Cava, A., Cepa, J., Daddi, E., Dominguez-Sanchez, H., Elbaz, D., Fontana, A., Schreiber, N. Forster, Franceschini, A., Genzel, R., Grazian, A., Lutz, D., Magdis, G., Magliocchetti, M., Magnelli, B., Maiolino, R., Mancini, C., Nordon, R., Garcia, A. M. Perez, Poglitsch, A., Santini, P., Sanchez-Portal, M., Pozzi, F., Riguccini, L., Saintonge, A., Shao, L., Sturm, E., Tacconi, L., Valtchanov, I., Wetzstein, M., and Wieprecht, E.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We exploit deep observations of the GOODS-N field taken with PACS, on board of Herschel, as part of the PEP guaranteed time, to study the link between star formation and stellar mass in galaxies to z~2. Starting from a stellar mass-selected sample of ~4500 galaxies with mag[4.5mu]<23 (AB), we identify ~350 objects with a PACS detection at 100 or 160mu and ~1500 with only Spitzer 24 mu counterpart. Stellar masses and total IR luminosities (LIR) are estimated by fitting the SEDs. Consistently with other Herschel results, we find that LIR based only on 24 mu data is overestimated by a median factor ~1.8 at z~2, whereas it is underestimated (with our approach) up to a factor ~1.6 at 0.510^(11) (M_sun) galaxies from z=0 to z=2, and seems to flatten at z>1.5 in this mass range. Moreover, the most massive galaxies have the lowest SSFR at any z, implying that they have formed their stars earlier and more rapidly than their low mass counterparts., Comment: Accepted for publication in the A&A Herschel Special issue

Published

2010

49. Dissecting the cosmic infra-red background with Herschel/PEP

Author

Berta, S., Magnelli, B., Lutz, D., Altieri, B., Aussel, H., Andreani, P., Bauer, O., Bongiovanni, A., Cava, A., Cepa, J., Cimatti, A., Daddi, E., Dominguez, H., Elbaz, D., Feuchtgruber, H., Schreiber, N. M. Foerster, Genzel, R., Gruppioni, C., Katterloher, R., Magdis, G., Maiolino, R., Nordon, R., Garcia, A. M. Perez, Poglitsch, A., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Saintonge, A., Santini, P., Sanchez-Portal, M., Shao, L., Sturm, E., Tacconi, L. J., Valtchanov, I., Wetzstein, M., and Wieprecht, E.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The constituents of the cosmic IR background (CIB) are studied at its peak wavelengths (100 and 160 um) by exploiting Herschel/PACS observations of the GOODS-N, Lockman Hole, and COSMOS fields in the PACS Evolutionary Probe (PEP) guaranteed-time survey. The GOODS-N data reach 3 sigma depths of ~3.0 mJy at 100 um and ~5.7 mJy at 160 um. At these levels, source densities are 40 and 18 beams/source, respectively, thus hitting the confusion limit at 160 um. Differential number counts extend from a few mJy up to 100-200 mJy, and are approximated as a double power law, with the break lying between 5 and 10 mJy. The available ancillary information allows us to split number counts into redshift bins. At z<=0.5 we isolate a class of luminous sources (L(IR)~1e11 Lsun), whose SEDs resemble late-spiral galaxies, peaking at ~130 um restframe and significantly colder than what is expected on the basis of pre-Herschel models. By integrating number counts over the whole covered flux range, we obtain a surface brightness of 6.36 +/- 1.67 and 6.58 +/-1.62 [nW m^-2 sr^-1] at 100 and 160 um, resolving ~45% and ~52% of the CIB, respectively. When stacking 24 um sources, the inferred CIB lies within 1.1 sigma and 0.5 sigma from direct measurements in the two bands, and fractions increase to 50% and 75%.Most of this resolved CIB fraction was radiated at z<=1.0, with 160 um sources found at higher redshift than 100 um ones., Comment: Accepted for publication on the A&A Herschel Special Issue

Published

2010

50. Herschel PEP: The star-formation rates of 1.5<z<2.5 massive galaxies

Author

Nordon, R., Lutz, D., Shao, L., Magnelli, B., Berta, S., Altieri, B., Andreani, P., Aussel, H., Bongiovanni, A., Cava, A., Cepa, J., Cimatti, A., Daddi, E., Dominguez, H., Elbaz, D., Schreiber, N. M. Forster, Genzel, R., Grazian, A., Magdis, G., Maiolino, R., Garcia, A. M. Perez, Poglitsch, A., Popesso, P., Pozzi, F., Riguccini, L., Rodighiero, G., Saintonge, A., Sanchez-Portal, M., Santini, P., Sturm, E., Tacconi, L., Valtchanov, I., Wetzstein, M., and Wieprecht, E.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The star formation rate (SFR) is a key parameter in the study of galaxy evolution. The accuracy of SFR measurements at z~2 has been questioned following a disagreement between observations and theoretical models. The latter predict SFRs at this redshift that are typically a factor 4 or more lower than the measurements. We present star-formation rates based on calorimetric measurements of the far-infrared (FIR) luminosities for massive 1.512.2 L_sun. The SFGs and AGNs tend to exhibit the same 24 micron excess. The UV SFRs are in closer agreement with the FIR-based SFRs. Using a Calzetti UV extinction correction results in a mean excess of up to 0.3 dex and a scatter of 0.35 dex from the FIR SFRs. The previous UV SFRs are thus confirmed and the mean excess, while narrowing the gap, is insufficient to explain the discrepancy between the observed SFRs and simulation predictions., Comment: Accepted for publication in the A&A Herschel first results special issue. v2 Correction to the meta data only

Published

2010