Your search keyword '"Daddi, Emanuele"' showing total 49 results

1. A Rest-frame Near-IR Study of Clumps in Galaxies at 1 < z < 2 Using JWST/NIRCam: Connection to Galaxy Bulges.

Author

Kalita, Boris S., Silverman, John D., Daddi, Emanuele, Bottrell, Connor, Ho, Luis C., Ding, Xuheng, and Yang, Lilan

Subjects

DISTRIBUTION of stars, GALAXIES, GALACTIC evolution, GALACTIC redshift, GALAXY formation

Abstract

A key question in galaxy evolution has been the importance of the apparent "clumpiness" of high-redshift galaxies. Until now, this property has been primarily investigated in rest-frame UV, limiting our understanding of their relevance. Are they short-lived or are they associated with more long-lived massive structures that are part of the underlying stellar disks? We use JWST/NIRCam imaging from the Cosmic Evolution and Epoch of Reionization Survey to explore the connection between the presence of these "clumps" in a galaxy and its overall stellar morphology, in a mass-complete ( log M * / M ⊙ > 10.0) sample of galaxies at 1.0 < z < 2.0. Exploiting the uninterrupted access to rest-frame optical and near-IR light, we simultaneously map the clumps in galactic disks across our wavelength coverage, along with measuring the distribution of stars among their bulges and disks. First, we find that the clumps are not limited to the rest-frame UV and optical, but are also apparent in near-IR with ∼60% spatial overlap. This rest-frame near-IR detection indicates that clumps would also feature in the stellar-mass distribution of the galaxy. A secondary consequence is that these will hence be expected to increase the dynamical friction within galactic disks leading to gas inflow. We find a strong negative correlation between how clumpy a galaxy is and strength of the bulge. This firmly suggests an evolutionary connection, either through clumps driving bulge growth or the bulge stabilizing the galaxy against clump formation, or a combination of the two. Finally, we find evidence of this correlation differing from rest-frame optical to near-IR, which could suggest a combination of varying formation modes for the clumps. [ABSTRACT FROM AUTHOR]

Published

2024

2. CEERS Key Paper. VII. JWST/MIRI Reveals a Faint Population of Galaxies at Cosmic Noon Unseen by Spitzer.

Author

Kirkpatrick, Allison, Yang, Guang, Le Bail, Aurélien, Troiani, Greg, Bell, Eric F., Cleri, Nikko J., Elbaz, David, Finkelstein, Steven L., Hathi, Nimish P., Hirschmann, Michaela, Holwerda, Benne W., Kocevski, Dale D., Lucas, Ray A., McKinney, Jed, Papovich, Casey, Pérez-González, Pablo G., de la Vega, Alexander, Bagley, Micaela B., Daddi, Emanuele, and Dickinson, Mark

Published

2023

3. Dusty Starbursts Masquerading as Ultra-high Redshift Galaxies in JWST CEERS Observations.

Author

Zavala, Jorge A., Buat, Véronique, Casey, Caitlin M., Finkelstein, Steven L., Burgarella, Denis, Bagley, Micaela B., Ciesla, Laure, Daddi, Emanuele, Dickinson, Mark, Ferguson, Henry C., Franco, Maximilien, Jiménez-Andrade, E. F., Kartaltepe, Jeyhan S., Koekemoer, Anton M., Bail, Aurélien Le, Murphy, E. J., Papovich, Casey, Tacchella, Sandro, Wilkins, Stephen M., and Aretxaga, Itziar

Published

2023

4. A Duality in the Origin of Bulges and Spheroidal Galaxies

Author

Constantin, Lucian A., Pérez-González, Pablo G., Méndez-Abreu, J., Huertas-Company, M., Dimauro, Paola, Alcalde Pampliega, Belén, Buitrago, Fernando, Ceverino, Daniel, Daddi, Emanuele, Domínguez-Sánchez, H., Espino-Briones, Néstor, Hernán-Caballero, Antonio, Koekemoer, Anton M., Rodighiero, Giulia, Constantin, Lucian A., Pérez-González, Pablo G., Méndez-Abreu, J., Huertas-Company, M., Dimauro, Paola, Alcalde Pampliega, Belén, Buitrago, Fernando, Ceverino, Daniel, Daddi, Emanuele, Domínguez-Sánchez, H., Espino-Briones, Néstor, Hernán-Caballero, Antonio, Koekemoer, Anton M., and Rodighiero, Giulia

Abstract

Studying the resolved stellar populations of the different structural components that build massive galaxies directly unveils their assembly history. We aim at characterizing the stellar population properties of a representative sample of bulges and pure spheroids in massive galaxies (M ∗ > 1010 M o˙) in the GOODS-N field. We take advantage of the spectral and spatial information provided by SHARDS and Hubble Space Telescope data to perform the multi-image spectrophotometric decoupling of the galaxy light. We derive the spectral energy distribution separately for bulges and disks in the redshift range 0.14 < z ≤ 1 with spectral resolution R ∼ 50. Analyzing these spectral energy distributions, we find evidence of a bimodal distribution of bulge formation redshifts. We find that 33% of them present old mass-weighted ages, implying a median formation redshift form=6.2_-1.7+1.5. They are relics of the early universe embedded in disk galaxies. A second wave, dominant in number, accounts for bulges formed at median redshift form=1.3_-0.6+0.6. The oldest (first-wave) bulges are more compact than the youngest. Virtually all pure spheroids (i.e., those without any disk) are coetaneous with the second-wave bulges, presenting a median redshift of formation form=1.1_-0.3+0.3 The two waves of bulge formation are distinguishable not only in terms of stellar ages but also in star formation mode. All first-wave bulges formed fast at z ∼ 6, with typical timescales around 200 Myr. A significant fraction of the second-wave bulges assembled more slowly, with star formation timescales as long as 1 Gyr. The results of this work suggest that the centers of massive disk-like galaxies actually harbor the oldest spheroids formed in the universe.

Published

2021

5. The Stellar Mass versus Stellar Metallicity Relation of Star-forming Galaxies at 1.6 ≤ z ≤ 3.0 and Implications for the Evolution of the α -enhancement.

Author

Kashino, Daichi, Lilly, Simon J., Renzini, Alvio, Daddi, Emanuele, Zamorani, Giovanni, Silverman, John D., Ilbert, Olivier, Peng, Ying-jie, Mainieri, Vincenzo, Bardelli, Sandro, Zucca, Elena, Kartaltepe, Jeyhan S., and Sanders, David B.

Subjects

STELLAR mass, GALAXIES, STELLAR populations, MILKY Way, STAR formation, STELLAR spectra

Abstract

We measure the relationship between stellar mass and stellar metallicity for 1336 star-forming galaxies at 1.6 ≤ z ≤ 3.0 using rest-frame far-ultraviolet spectra from the zCOSMOS-deep survey. High signal-to-noise ratio composite spectra containing stellar absorption features are fit with stellar population synthesis model spectra of a range of stellar metallicity. We find stellar metallicities, which mostly reflect instantaneous iron abundances, scaling as [ Fe / H ] = âˆ' (0.81 ± 0.01) + (0.32 + 0.03) log (M * / 10 10 M ⊙) across the stellar mass range of 109 ≲ M */ M ⊙ ≲ 1011. The instantaneous oxygen-to-iron ratio (α -enhancement) inferred using the gas-phase massâ€"metallicity relation is on average found to be O / Fe ≈ 0.47 , being higher than the local O / Fe ≈ 0. The observed changes in [O/Fe] and [Fe/H] are reproduced in simple gas-regulator models with steady star formation histories. Our models show that the [O/Fe] is determined almost entirely by the instantaneous specific star formation rate alone while being independent of the mass and the characteristic of the gas regulation. We also find that the locations of ∼ 1010 M ⊙ galaxies at z ∼ 2 in the [O/Fe]â€"metallicity planes are in remarkable agreement with the sequence of low-metallicity thick-disk stars in our own Galaxy. This manifests a beautiful concordance between the results of Galactic archeology and observations of high-redshift Milky Way progenitors. There remains, however, a question of how and when the old metal-rich, low α /Fe stars seen in the bulge had formed by z ∼ 2 because such a stellar population is not seen in our data and is difficult to explain in the context of our models. [ABSTRACT FROM AUTHOR]

Published

2022

6. AGN Selection Methods Have Profound Impacts on the Distributions of Host-galaxy Properties.

Author

Ji, Zhiyuan, Giavalisco, Mauro, Kirkpatrick, Allison, Kocevski, Dale, Daddi, Emanuele, Delvecchio, Ivan, and Hatcher, Cassandra

Subjects

ACTIVE galactic nuclei, STAR formation, GALACTIC evolution

Abstract

We present a comparative study of X-ray and IR active galactic nuclei (AGNs) at z ≈ 2 to highlight the important AGN selection effects on the distributions of host-galaxy properties. Compared with non-AGN star-forming galaxies (SFGs) on the main sequence, X-ray AGNs have similar median star formation (SF) properties, but their incidence (q AGN) is higher among galaxies with either enhanced or suppressed SF, and among galaxies with a larger stellar-mass surface density, regardless if it is measured within the half-light radius (Σ e ) or central 1 kpc (Σ1kpc). Unlike X-ray AGNs, IR AGNs are less massive and have enhanced SF and similar distributions of colors, Σ e and Σ1kpc, relative to non-AGN SFGs. Given that Σ e and Σ1kpc strongly correlate with M *, we introduce the fractional mass within the central 1 kpc ( M 1 kpc / M ∗ ), which only weakly depends on M *, to quantify galaxy compactness. Both AGN populations have similar M 1 kpc / M ∗ distributions compared to non-AGN SFGs’. While q AGN increases with Σ e and Σ1kpc, it remains constant with M 1 kpc / M ∗ , indicating that the trend of increasing q AGN with Σ is driven by M * more than morphology. While our findings are not in conflict with the scenario of AGN quenching, they do not imply it either, because the incidence of AGNs hosted in transitional galaxies depends crucially on AGN selections. Additionally, despite the relatively large uncertainty of AGN bolometric luminosities, their very weak correlation, if any, with SF activities, regardless of AGN selections, also argues against a direct causal link between the presence of AGNs and the quenching of massive galaxies at z ∼ 2. [ABSTRACT FROM AUTHOR]

Published

2022

7. COLDz: Probing Cosmic Star Formation With Radio Free–Free Emission.

Author

Algera, Hiddo S. B., Hodge, Jacqueline A., Riechers, Dominik A., Leslie, Sarah K., Smail, Ian, Aravena, Manuel, da Cunha, Elisabete, Daddi, Emanuele, Decarli, Roberto, Dickinson, Mark, Gim, Hansung B., Guaita, Lucia, Magnelli, Benjamin, Murphy, Eric J., Pavesi, Riccardo, Sargent, Mark T., Sharon, Chelsea E., Wagg, Jeff, Walter, Fabian, and Yun, Min

Subjects

STAR formation, RADIO sources (Astronomy), SYNCHROTRON radiation, GALAXY formation, RADIO galaxies, STARBURSTS, OCCULTATIONS (Astronomy)

Abstract

Radio free–free emission is considered to be one of the most reliable tracers of star formation in galaxies. However, as it constitutes the faintest part of the radio spectrum—being roughly an order of magnitude less luminous than radio synchrotron emission at the GHz frequencies typically targeted in radio surveys—the usage of free–free emission as a star formation rate tracer has mostly remained limited to the local universe. Here, we perform a multifrequency radio stacking analysis using deep Karl G. Jansky Very Large Array observations at 1.4, 3, 5, 10, and 34 GHz in the COSMOS and GOODS-North fields to probe free–free emission in typical galaxies at the peak of cosmic star formation. We find that z ∼ 0.5–3 star-forming galaxies exhibit radio emission at rest-frame frequencies of ∼65–90 GHz that is ∼1.5–2 times fainter than would be expected from a simple combination of free–free and synchrotron emission, as in the prototypical starburst galaxy M82. We interpret this as a deficit in high-frequency synchrotron emission, while the level of free–free emission is as expected from M82. We additionally provide the first constraints on the cosmic star formation history using free–free emission at 0.5 ≲ z ≲ 3, which are in good agreement with more established tracers at high redshift. In the future, deep multifrequency radio surveys will be crucial in order to accurately determine the shape of the radio spectrum of faint star-forming galaxies, and to further establish radio free–free emission as a tracer of high-redshift star formation. [ABSTRACT FROM AUTHOR]

Published

2022

8. The 2175 Å Dust Feature in Star-forming Galaxies at 1.3 ≤ z ≤ 1.8: The Dependence on Stellar Mass and Specific Star Formation Rate

Author

Kashino, Daichi, Lilly, Simon J., Silverman, John D., Renzini, Alvio, Daddi, Emanuele, Bardelli, Sandro, Cucciati, Olga, Kartaltepe, Jeyhan S., Mainieri, Vincenzo, Pelló, Roser, Peng, Ying-jie, Sanders, David B., and Zucca, Elena

Abstract

We present direct spectroscopic measurements of the broad 2175 Å absorption feature in 505 star-forming main-sequence galaxies at 1.3 ≤ z ≤ 1.8 using individual and stacked spectra from the zCOSMOS-deep survey. Significant 2175 Å excess absorption features of moderate strength are measured, especially in the composite spectra. The excess absorption is well described by a Drude profile. The bump amplitude expressed in units of k(λ) = A(λ)/E(B − V), relative to the featureless Calzetti et al. law, has a range Bk ≈ 0.2–0.8. The bump amplitude decreases with the specific star formation rate (sSFR), while it increases moderately with the stellar mass. However, a comparison with local "starburst" galaxies shows that the high-redshift main-sequence galaxies have stronger bump features, despite having a higher sSFR than the local sample. Plotting the bump strength against the △logsSFR≡log(SFR/SFR MS) relative to the main sequence, however, brings the two samples into much better concordance. This may indicate that it is the recent star formation history of the galaxies that determines the bump strength through the destruction of small carbonaceous grains by supernovae and intense radiation fields coupled with the time delay of ∼1 Gyr in the appearance of carbon-rich asymptotic giant branch stars.

Published

2021

9. An Ancient Massive Quiescent Galaxy Found in a Gas-rich z ∼ 3 Group.

Author

Kalita, Boris S., Daddi, Emanuele, D'Eugenio, Chiara, Valentino, Francesco, Rich, R. Michael, Gómez-Guijarro, Carlos, Coogan, Rosemary T., Delvecchio, Ivan, Elbaz, David, Neill, James D., Puglisi, Annagrazia, and Strazzullo, Veronica

Published

2021

10. From Haloes to Galaxies. III. The Gas Cycle of Local Galaxy Populations.

Author

Dou, Jing, Peng, Yingjie, Renzini, Alvio, Ho, Luis C., Mannucci, Filippo, Daddi, Emanuele, Gao, Yu, Maiolino, Roberto, Zhang, Chengpeng, Gu, Qiusheng, Li, Di, Lilly, Simon J., Pan, Zhizheng, Yuan, Feng, and Zheng, Xianzhong

Subjects

GALACTIC evolution, GALAXIES, GALAXY formation, STAR formation, STELLAR populations, STELLAR mass

Abstract

In Dou et al., we introduced the fundamental formation relation (FFR), a tight relation between specific star formation rate (sSFR), H2 star formation efficiency (SFE), and the ratio of H2 to stellar mass. Here, we show that atomic gas H ɪ does not follow a similar FFR as H2. The relation between SFEHɪ and sSFR shows significant scatter and strong systematic dependence on all of the key galaxy properties that we have explored. The dramatic difference between H ɪ and H2 indicates that different processes (e.g., quenching by different mechanisms) may have very different effects on H ɪ in different galaxies and hence produce different SFEHɪ–sSFR relations, while the SFE –sSFR relation remains unaffected. The fact that the SFE –sSFR relation is independent of other key galaxy properties, and that sSFR is directly related to the cosmic time and acts as the cosmic clock, make it natural and very simple to study how different galaxy populations (with different properties and undergoing different processes) evolve on the same SFE –sSFR ∼ t relation. In the gas regulator model (GRM), the evolution of a galaxy on the SFE –sSFR(t) relation is uniquely set by a single mass-loading parameter. This simplicity allows us to accurately derive the H2 supply and removal rates of the local galaxy populations with different stellar masses, from star-forming galaxies to the galaxies in the process of being quenched. This combination of FFR and GRM, together with the stellar metallicity requirement, provide a new powerful tool to study galaxy formation and evolution. [ABSTRACT FROM AUTHOR]

Published

2021

11. Deep Observations of CO and Free–Free Emission in Ultraluminous Infrared QSO IRAS F07599+6508.

Author

Tan, Qing-Hua, Gao, Yu, Daddi, Emanuele, Xia, Xiao-Yang, Hao, Cai-Na, Omont, Alain, and Kohno, Kotaro

Subjects

SPECTRAL energy distribution, STAR formation, COMMONS

Abstract

Infrared quasi-stellar objects (IR QSOs) are a rare subpopulation selected from ultraluminous infrared galaxies (ULIRGs) and have been regarded as promising candidates of ULIRG-to-optical QSO transition objects. Here we present NOEMA observations of the CO (1−0) line and 3 mm continuum emission in IR QSO IRAS F07599+6508 at z = 0.1486, which has many properties in common with Mrk 231. The CO emission is found to be resolved with a major axis of ∼6.1 kpc that is larger than the size of ∼4.0 kpc derived for 3 mm continuum. We identify two faint CO features located at a projected distance of ∼11.4 and 19.1 kpc from the galaxy nucleus, both of which are found to have counterparts in the optical and radio bands and may have a merger origin. A systematic velocity gradient is found in the CO main component, suggesting that the bulk of molecular gas is likely rotationally supported. Based on the radio-to-millimeter spectral energy distribution and IR data, we estimate that about 30% of the flux at 3 mm arises from free–free emission and infer a free–free-derived star formation rate of 77 M⊙ yr−1, close to the IR estimate corrected for the AGN contribution. We find a high-velocity CO emission feature at the velocity range of about −1300 to −2000 km s−1. Additional deep CO observations are needed to confirm the presence of a possible very high velocity CO extension of the OH outflow in this IR QSO. [ABSTRACT FROM AUTHOR]

Published

2021

12. A Duality in the Origin of Bulges and Spheroidal Galaxies.

Author

Costantin, Luca, Pérez-González, Pablo G., Méndez-Abreu, Jairo, Huertas-Company, Marc, Dimauro, Paola, Alcalde-Pampliega, Belén, Buitrago, Fernando, Ceverino, Daniel, Daddi, Emanuele, Domínguez-Sánchez, Helena, Espino-Briones, Néstor, Hernán-Caballero, Antonio, Koekemoer, Anton M., and Rodighiero, Giulia

Subjects

GALACTIC bulges, ELLIPTICAL galaxies, SPECTRAL energy distribution, DISK galaxies, STELLAR populations

Abstract

Studying the resolved stellar populations of the different structural components that build massive galaxies directly unveils their assembly history. We aim at characterizing the stellar population properties of a representative sample of bulges and pure spheroids in massive galaxies (M⋆ > 1010M⊙) in the GOODS-N field. We take advantage of the spectral and spatial information provided by SHARDS and Hubble Space Telescope data to perform the multi-image spectrophotometric decoupling of the galaxy light. We derive the spectral energy distribution separately for bulges and disks in the redshift range 0.14 < z ≤ 1 with spectral resolution R ∼ 50. Analyzing these spectral energy distributions, we find evidence of a bimodal distribution of bulge formation redshifts. We find that 33% of them present old mass-weighted ages, implying a median formation redshift. They are relics of the early universe embedded in disk galaxies. A second wave, dominant in number, accounts for bulges formed at median redshift. The oldest (first-wave) bulges are more compact than the youngest. Virtually all pure spheroids (i.e., those without any disk) are coetaneous with the second-wave bulges, presenting a median redshift of formation. The two waves of bulge formation are distinguishable not only in terms of stellar ages but also in star formation mode. All first-wave bulges formed fast at z ∼ 6, with typical timescales around 200 Myr. A significant fraction of the second-wave bulges assembled more slowly, with star formation timescales as long as 1 Gyr. The results of this work suggest that the centers of massive disk-like galaxies actually harbor the oldest spheroids formed in the universe. [ABSTRACT FROM AUTHOR]

Published

2021

13. CO Excitation, Molecular Gas Density, and Interstellar Radiation Field in Local and High-redshift Galaxies.

Author

Liu, Daizhong, Daddi, Emanuele, Schinnerer, Eva, Saito, Toshiki, Leroy, Adam, Silverman, John D., Valentino, Francesco, Magdis, Georgios E., Gao, Yu, Jin, Shuowen, Puglisi, Annagrazia, and Groves, Brent

Subjects

*GALACTIC redshift, *STARBURSTS, *SPECTRAL energy distribution, *RADIATION, *CARBON monoxide, *PROBABILITY density function, *GAMMA ray bursts

Abstract

We study the carbon monoxide (CO) excitation, mean molecular gas density, and interstellar radiation field (ISRF) intensity in a comprehensive sample of 76 galaxies from local to high redshift (z ∼ 0–6), selected based on detections of their CO transitions J = 2 → 1 and 5 → 4 and their optical/infrared/(sub)millimeter spectral energy distributions (SEDs). We confirm the existence of a tight correlation between CO excitation as traced by the CO (5–4)/(2–1) line ratio R52 and the mean ISRF intensity as derived from infrared SED fitting using dust SED templates. By modeling the molecular gas density probability distribution function (PDF) in galaxies and predicting CO line ratios with large velocity gradient radiative transfer calculations, we present a framework linking global CO line ratios to the mean molecular hydrogen gas density and kinetic temperature Tkin. Mapping in this way observed R52 ratios to and Tkin probability distributions, we obtain positive – and –Tkin correlations, which imply a scenario in which the ISRF in galaxies is mainly regulated by Tkin and (nonlinearly) by. A small fraction of starburst galaxies showing enhanced could be due to merger-driven compaction. Our work demonstrates that ISRF and CO excitation are tightly coupled and that density–PDF modeling is a promising tool for probing detailed ISM properties inside galaxies. [ABSTRACT FROM AUTHOR]

Published

2021

14. Dust, Gas, and Metal Content in Star-forming Galaxies at z ∼ 3.3 Revealed with ALMA and Near-IR Spectroscopy.

Author

Suzuki, Tomoko L., Onodera, Masato, Kodama, Tadayuki, Daddi, Emanuele, Hayashi, Masao, Koyama, Yusei, Shimakawa, Rhythm, Smail, Ian, Sobral, David, Tacchella, Sandro, and Tanaka, Ichi

Subjects

INTERSTELLAR medium, GALAXIES, DUST, GASES, SPECTROMETRY, STELLAR mass, SUBMILLIMETER astronomy

Abstract

We conducted submillimeter observations with the Atacama Large Millimeter/submillimeter Array (ALMA) of star-forming galaxies at z ∼ 3.3, whose gas-phase metallicities have been measured previously. We investigated the dust and gas contents of the galaxies at z ∼ 3.3 and studied the interaction of galaxies with their circumgalactic or intergalactic medium at this epoch by probing their gas mass fractions and gas-phase metallicities. Single-band dust continuum emission tracing dust mass and the relation between the gas-phase metallicity and gas-to-dust mass ratio were used to estimate the gas masses. The estimated gas mass fractions and depletion timescales are fgas= 0.20–0.75 and tdep= 0.09–1.55 Gyr. Although the galaxies appear to be tightly distributed around the star-forming main sequence at z ∼ 3.3, both quantities show a wider spread at a fixed stellar mass than expected from the scaling relation, suggesting a large diversity of fundamental gas properties in star-forming galaxies that apparently lie on the main sequence. When we compared gas mass fraction and gas-phase metallicity in star-forming galaxies at z ∼ 3.3 and at lower redshifts, star-forming galaxies at z ∼ 3.3 appear to be more metal poor than local galaxies with similar gas mass fractions. Using the gas regulator model to interpret this offset, we find that this can be explained by a higher mass-loading factor, suggesting that the mass-loading factor in outflows increases at earlier cosmic times. [ABSTRACT FROM AUTHOR]

Published

2021

15. From Haloes to Galaxies. II. The Fundamental Relations in Star Formation and Quenching.

Author

Dou, Jing, Peng, Yingjie, Renzini, Alvio, Ho, Luis C., Mannucci, Filippo, Daddi, Emanuele, Gao, Yu, Maiolino, Roberto, Zhang, Chengpeng, Gu, Qiusheng, Li, Di, Lilly, Simon J., and Yuan, Feng

Subjects

STAR formation, STELLAR evolution, GALACTIC evolution, GALAXY formation, STELLAR mass

Abstract

Star formation and quenching are two of the most important processes in galaxy formation and evolution. We explore in the local universe the interrelationships among key integrated galaxy properties, including stellar mass M*, star formation rate (SFR), specific SFR (sSFR), molecular gas mass , star formation efficiency (SFE) of the molecular gas, and the molecular gas to stellar mass ratio μ. We aim to identify the most fundamental scaling relations among these key galaxy properties and their interrelationships. We show that the integrated –SFR, SFR–M*, and –M* relations can be simply transformed from the μ–sSFR, SFE–μ, and SFE–sSFR relations, respectively. The transformation, in principle, can increase or decrease the scatter of each relation. Interestingly, we find that the latter three relations all have significantly smaller scatter than the corresponding former three. We show that the probability to achieve the observed small scatter by accident is extremely close to zero. This suggests that the smaller scatters of the latter three relations are driven by a more universal physical connection among these quantities. We then show that the large scatters in the former relations are due to their systematic dependence on other galaxy properties, and on the star formation and quenching process. We propose the sSFR–μ–SFE relation as the fundamental formation relation (FFR), which governs the star formation and quenching process and provides a simple framework to study galaxy evolution. Other scaling relations, including the integrated Kennicutt–Schmidt law, star-forming main sequence, and molecular gas main sequence, can all be derived from the FFR. [ABSTRACT FROM AUTHOR]

Published

2021

16. The ALMA Spectroscopic Survey in the Hubble Ultra Deep Field: Constraining the Molecular Content at log(M*/M⊙) ∼ 9.5 with CO Stacking of MUSE-detected z ∼ 1.5 Galaxies.

Author

Inami, Hanae, Decarli, Roberto, Walter, Fabian, Weiss, Axel, Carilli, Chris, Aravena, Manuel, Boogaard, Leindert, Gonzaĺez-López, Jorge, Popping, Gergö, da Cunha, Elisabete, Bacon, Roland, Bauer, Franz, Contini, Thierry, Cortes, Paulo C., Cox, Pierre, Daddi, Emanuele, Díaz-Santos, Tanio, Kaasinen, Melanie, Riechers, Dominik A., and Wagg, Jeff

Subjects

STELLAR mass, GALAXIES, MOLECULAR weights

Abstract

We report molecular gas mass estimates obtained from a stacking analysis of CO line emission in the ALMA Spectroscopic Survey (ASPECS) using the spectroscopic redshifts from the optical integral field spectroscopic survey by the Multi Unit Spectroscopic Explorer (MUSE) of the Hubble Ultra Deep Field (HUDF). Stacking was performed on subsets of the sample of galaxies classified by their stellar mass and position relative to the main-sequence relation (on, above, below). Among all the CO emission lines, from CO(2–1) to CO(6–5), with redshifts accessible via the ASPECS Band 3 and the MUSE data, CO(2–1) provides the strongest constraints on the molecular gas content. We detect CO(2–1) emission in galaxies down to stellar masses of. Below this stellar mass, we present a new constraint on the molecular gas content of main-sequence galaxies by stacking based on the MUSE detections. We find that the molecular gas mass of main-sequence galaxies continuously decreases with stellar mass down to. Assuming a metallicity-based CO–to–H2 conversion factor, the molecular gas-to-stellar mass ratio from to ∼10.0 does not seem to decrease as fast as for , which is in line with simulations and studies at lower redshift. The inferred molecular gas density of MUSE-selected galaxies at is comparable with the one derived in the HUDF with a different CO selection. Using the MUSE data we recover most of the CO emission in our deep ALMA observations through stacking, demonstrating the synergy between volumetric surveys obtained at different wave bands. [ABSTRACT FROM AUTHOR]

Published

2020

17. The ALMA Spectroscopic Survey Large Program: The Infrared Excess of z = 1.5–10 UV-selected Galaxies and the Implied High-redshift Star Formation History.

Author

Bouwens, Rychard, González-López, Jorge, Aravena, Manuel, Decarli, Roberto, Novak, Mladen, Stefanon, Mauro, Walter, Fabian, Boogaard, Leindert, Carilli, Chris, Dudzevičiūtė, Ugnė, Smail, Ian, Daddi, Emanuele, da Cunha, Elisabete, Ivison, Rob, Nanayakkara, Themiya, Cortes, Paulo, Cox, Pierre, Inami, Hanae, Oesch, Pascal, and Popping, Gergö

Subjects

STAR formation, STELLAR mass, GALAXIES, GALACTIC redshift, SUBMILLIMETER astronomy

Abstract

We make use of sensitive (9.3 μJy beam−1 rms) 1.2 mm continuum observations from the Atacama Large Millimeter/submillimeter Array (ALMA) Spectroscopic Survey in the Hubble Ultra-Deep Field (ASPECS) large program to probe dust-enshrouded star formation from 1362 Lyman-break galaxies spanning the redshift range z = 1.5–10 (to ∼7–28 M⊙ yr−1 at 4σ over the entire range). We find that the fraction of ALMA-detected galaxies in our z = 1.5–10 samples increases steeply with stellar mass, with the detection fraction rising from 0% at 109.0M⊙ to % at >1010M⊙. Moreover, on stacking all 1253 low-mass (<109.25M⊙) galaxies over the ASPECS footprint, we find a mean continuum flux of −0.1 ± 0.4 μJy beam−1, implying a hard upper limit on the obscured star formation rate of <0.6 M⊙ yr−1 (4σ) in a typical low-mass galaxy. The correlation between the infrared excess (IRX) of UV-selected galaxies (LIR/LUV) and the UV-continuum slope is also seen in our ASPECS data and shows consistency with a Calzetti-like relation at > and an SMC-like relation at lower masses. Using stellar mass and β measurements for z ∼ 2 galaxies over the Cosmic Assembly Near-infrared Deep Extragalactic Legacy Survey, we derive a new empirical relation between β and stellar mass and then use this correlation to show that our IRX–β and IRX–stellar mass relations are consistent with each other. We then use these constraints to express the IRX as a bivariate function of β and stellar mass. Finally, we present updated estimates of star formation rate density determinations at z > 3, leveraging present improvements in the measured IRX and recent probes of ultraluminous far-IR galaxies at z > 2. [ABSTRACT FROM AUTHOR]

Published

2020

18. The ALMA Spectroscopic Survey in the Hubble Ultra Deep Field: Multiband Constraints on Line-luminosity Functions and the Cosmic Density of Molecular Gas.

Author

Decarli, Roberto, Aravena, Manuel, Boogaard, Leindert, Carilli, Chris, González-López, Jorge, Walter, Fabian, Cortes, Paulo C., Cox, Pierre, da Cunha, Elisabete, Daddi, Emanuele, Díaz-Santos, Tanio, Hodge, Jacqueline A., Inami, Hanae, Neeleman, Marcel, Novak, Mladen, Oesch, Pascal, Popping, Gergö, Riechers, Dominik, Smail, Ian, and Uzgil, Bade

Subjects

STELLAR luminosity function, CARBON offsetting, STAR formation, STELLAR evolution, DENSITY, REDSHIFT

Abstract

We present a CO and atomic fine-structure line-luminosity function analysis using the ALMA Spectroscopic Survey (ASPECS) in the Hubble Ultra Deep Field. ASPECS consists of two spatially overlapping mosaics that cover the entire ALMA 3 mm and 1.2 mm bands. We combine the results of a line-candidate search of the 1.2 mm data cube with those previously obtained from the 3 mm cube. Our analysis shows that ∼80% of the line flux observed at 3 mm arises from CO(2–1) or CO(3–2) emitters at z = 1–3 ("cosmic noon"). At 1.2 mm, more than half of the line flux arises from intermediate-J CO transitions (Jup = 3–6); ∼12% from neutral carbon lines; and <1% from singly ionized carbon, [C ii ]. This implies that future [C ii ] intensity mapping surveys in the epoch of reionization will need to account for a highly significant CO foreground. The CO luminosity functions probed at 1.2 mm show a decrease in the number density at a given line luminosity (in units of L′) at increasing Jup and redshift. Comparisons between the CO luminosity functions for different CO transitions at a fixed redshift reveal subthermal conditions on average in galaxies up to z ∼ 4. In addition, the comparison of the CO luminosity functions for the same transition at different redshifts reveals that the evolution is not driven by excitation. The cosmic density of molecular gas in galaxies, ρH2, shows a redshift evolution with an increase from high redshift up to z ∼ 1.5 followed by a factor ∼6 drop down to the present day. This is in qualitative agreement with the evolution of the cosmic star formation rate density, suggesting that the molecular gas depletion time is approximately constant with redshift, after averaging over the star-forming galaxy population. [ABSTRACT FROM AUTHOR]

Published

2020

19. The ALMA Spectroscopic Survey in the Hubble Ultra Deep Field: CO Excitation and Atomic Carbon in Star-forming Galaxies at z = 1–3.

Author

Boogaard, Leindert A., van der Werf, Paul, Weiss, Axel, Popping, Gergö, Decarli, Roberto, Walter, Fabian, Aravena, Manuel, Bouwens, Rychard, Riechers, Dominik, González-López, Jorge, Smail, Ian, Carilli, Chris, Kaasinen, Melanie, Daddi, Emanuele, Cox, Pierre, Díaz-Santos, Tanio, Inami, Hanae, Cortes, Paulo C., and Wagg, Jeff

Subjects

ATOMIC excitation, MILKY Way, GALACTIC redshift, GALAXIES, INTERSTELLAR medium, STELLAR mass

Abstract

We investigate the CO excitation and interstellar medium (ISM) conditions in a cold gas mass-selected sample of 22 star-forming galaxies at z = 0.46–3.60, observed as part of the ALMA Spectroscopic Survey in the Hubble Ultra Deep Field (ASPECS). Combined with Very Large Array follow-up observations, we detect a total of 34 CO transitions with J = 1 up to 8 (and an additional 21 upper limits, up to J = 10) and 6 and transitions (and 12 upper limits). The CO(2–1) and CO(3–2)-selected galaxies, at and 2.5, respectively, exhibit a range in excitation in their mid-J = 4, 5 and high-J = 7, 8 lines, on average lower than (-brighter) BzK-color- and submillimeter-selected galaxies at similar redshifts. The former implies that a warm ISM component is not necessarily prevalent in gas mass-selected galaxies at. We use stacking and Large Velocity Gradient models to measure and predict the average CO ladders at z < 2 and z ≥ 2, finding and , respectively. From the models, we infer that the galaxies at z ≥ 2 have intrinsically higher excitation than those at z < 2. This fits a picture in which the global excitation is driven by an increase in the star formation rate surface density of galaxies with redshift. We derive a neutral atomic carbon abundance of , comparable to the Milky Way and main-sequence galaxies at similar redshifts, and fairly high densities (≥104 cm−3), consistent with the low-J CO excitation. Our results imply a decrease in the cosmic molecular gas mass density at z ≥ 2 compared to previous ASPECS measurements. [ABSTRACT FROM AUTHOR]

Published

2020

20. The ALMA Spectroscopic Survey in the Hubble Ultra Deep Field: The Nature of the Faintest Dusty Star-forming Galaxies.

Author

Aravena, Manuel, Boogaard, Leindert, Gónzalez-López, Jorge, Decarli, Roberto, Walter, Fabian, Carilli, Chris L., Smail, Ian, Weiss, Axel, Assef, Roberto J., Bauer, Franz Erik, Bouwens, Rychard J., Cortes, Paulo C., Cox, Pierre, da Cunha, Elisabete, Daddi, Emanuele, Díaz-Santos, Tanio, Inami, Hanae, Ivison, Rob, Novak, Mladen, and Popping, Gergö

Subjects

SPECTRAL energy distribution, GALAXIES, GAS reservoirs, STELLAR mass, STAR formation, REDSHIFT, GALACTIC redshift

Abstract

We present a characterization of the physical properties of a sample of 35 securely detected, dusty galaxies in the deep ALMA 1.2 mm image obtained as part of the ALMA Spectroscopic Survey in the Hubble Ultra Deep Field (ASPECS) Large Program. This sample is complemented by 26 additional sources identified via an optical/infrared source positional prior. Using their well-characterized spectral energy distributions, we derive median stellar masses and star formation rates (SFR) of and 30 M☉ yr−1, respectively, and interquartile ranges of (2.4–11.7) × 1010 M☉ and 20–50 M☉ yr−1. We derive a median spectroscopic redshift of 1.8 with an interquartile range 1.1–2.6, significantly lower than submillimeter galaxies detected in shallower, wide-field surveys. We find that 59% ± 13%, 6% ± 4%, and 34% ± 9% of our sources are within, above, and below±0.4 dex from the SFR–stellar-mass relation or main sequence (MS), respectively. The ASPECS galaxies closely follow the SFR–molecular gas mass relation and other previously established scaling relations, confirming a factor of five increase of the gas-to-stellar-mass ratio from z = 0.5 to 2.5 and a mild evolution of the gas depletion timescales with a typical value of 0.7 Gyr at z = 1–3. ASPECS galaxies located significantly below the MS, a poorly exploited parameter space, have low gas-to-stellar-mass ratios of ∼0.1–0.2 and long depletion timescales >1 Gyr. Galaxies along the MS dominate the cosmic density of molecular gas at all redshifts. Systems above the MS have an increasing contribution to the total gas reservoirs from z < 1 to z = 2.5, while the opposite is found for galaxies below the MS. [ABSTRACT FROM AUTHOR]

Published

2020

21. A Census of Sub-kiloparsec Resolution Metallicity Gradients in Star-forming Galaxies at Cosmic Noon from HST Slitless Spectroscopy.

Author

Wang, Xin, Jones, Tucker A., Treu, Tommaso, Daddi, Emanuele, Brammer, Gabriel B., Sharon, Keren, Morishita, Takahiro, Abramson, Louis E., Colbert, James W., Henry, Alaina L., Hopkins, Philip F., Malkan, Matthew A., Schmidt, Kasper B., Teplitz, Harry I., and Vulcani, Benedetta

Subjects

GALAXIES, GALACTIC redshift, STELLAR magnitudes, GALAXY clusters, STAR formation, STARBURSTS, STELLAR mass

Abstract

We present the hitherto largest sample of gas-phase metallicity radial gradients measured at sub-kpc resolution in star-forming galaxies in the redshift range of z ∈ [1.2, 2.3]. These measurements are enabled by the synergy of slitless spectroscopy from the Hubble Space Telescope near-infrared channels and the lensing magnification from foreground galaxy clusters. Our sample consists of 76 galaxies with stellar mass ranging from 107 to 1010 , an instantaneous star formation rate in the range of [1, 100] yr−1, and global metallicity of solar. At a 2σ confidence level, 15/76 galaxies in our sample show negative radial gradients, whereas 7/76 show inverted gradients. Combining ours and all other metallicity gradients obtained at a similar resolution currently available in the literature, we measure a negative mass dependence of Δlog(O/H)/ = (−0.020 ± 0.007) + (−0.016 ± 0.008) , with the intrinsic scatter being σ = 0.060 ± 0.006 over 4 orders of magnitude in stellar mass. Our result is consistent with strong feedback, not secular processes, being the primary governor of the chemostructural evolution of star-forming galaxies during the disk mass assembly at cosmic noon. We also find that the intrinsic scatter of metallicity gradients increases with decreasing stellar mass and increasing specific star formation rate. This increase in the intrinsic scatter is likely caused by the combined effect of cold-mode gas accretion and merger-induced starbursts, with the latter more predominant in the dwarf mass regime of. [ABSTRACT FROM AUTHOR]

Published

2020

22. The ALMA Spectroscopic Survey in the HUDF: Deep 1.2 mm Continuum Number Counts.

Author

González-López, Jorge, Novak, Mladen, Decarli, Roberto, Walter, Fabian, Aravena, Manuel, Carilli, Chris, Boogaard, Leindert, Popping, Gergö, Weiss, Axel, Assef, Roberto J., Bauer, Franz Erik, Bouwens, Rychard, Cortes, Paulo C., Cox, Pierre, Daddi, Emanuele, da Cunha, Elisabete, Díaz-Santos, Tanio, Ivison, Rob, Magnelli, Benjamin, and Riechers, Dominik

Subjects

STELLAR mass, GALACTIC redshift, GALACTIC evolution, SPACE telescopes, GALAXY formation, GALAXIES

Abstract

We present the results from the 1.2 mm continuum image obtained as part of the Atacama Large Millimeter/submillimeter Array Spectroscopic Survey in the Hubble Ultra Deep Field. The 1.2 mm continuum image has a size of 2.9 (4.2) arcmin2 within a primary beam response of 50% (10%) and an rms value of. We detect 35 sources at high significance (Fidelity ≥0.5); 32 have well-characterized near-infrared Hubble Space Telescope counterparts. We estimate the 1.2 mm number counts to flux levels of in two different ways: we first use the detected sources to constrain the number counts and find a significant flattening of the counts below Sν ∼ 0.1 mJy. In a second approach, we constrain the number counts using a probability of deflection statistics (P(D)) analysis. For this latter approach, we describe new methods to accurately measure the noise in interferometric imaging (employing jackknifing in the cube and in the visibility plane). This independent measurement confirms the flattening of the number counts. Our analysis of the differential number counts shows that we are detecting ∼93% (∼100% if we include the lower fidelity detections) of the total continuum dust emission associated with galaxies in the Hubble Ultra Deep Field. The ancillary data allow us to study the dependence of the 1.2 mm number counts on redshift (z = 0−4), galaxy dust mass (), stellar mass (), and star formation rate (). In an accompanying paper we show that the number counts are crucial to constrain galaxy evolution models and the understanding of star-forming galaxies at high redshift. [ABSTRACT FROM AUTHOR]

Published

2020

23. COLDz: A High Space Density of Massive Dusty Starburst Galaxies ∼1 Billion Years after the Big Bang.

Author

Riechers, Dominik A., Hodge, Jacqueline A., Pavesi, Riccardo, Daddi, Emanuele, Decarli, Roberto, Ivison, Rob J., Sharon, Chelsea E., Smail, Ian, Walter, Fabian, Aravena, Manuel, Capak, Peter L., Carilli, Christopher L., Cox, Pierre, da Cunha, Elisabete, Dannerbauer, Helmut, Dickinson, Mark, Neri, Roberto, and Wagg, Jeff

Subjects

STARBURSTS, STAR formation, STELLAR mass, GAS reservoirs, STELLAR luminosity function, DENSITY, GALAXIES, REDSHIFT

Abstract

We report the detection of CO(J = 2 → 1) emission from three massive dusty starburst galaxies at z > 5 through molecular line scans in the NSF's Karl G. Jansky Very Large Array (VLA) CO Luminosity Density at High Redshift (COLDz) survey. Redshifts for two of the sources, HDF 850.1 (z = 5.183) and AzTEC-3 (z = 5.298), were previously known. We revise a previous redshift estimate for the third source GN10 (z = 5.303), which we have independently confirmed through detections of CO J = 1 → 0, 5 → 4, 6 → 5, and [C ii ] 158 μm emission with the VLA and the NOrthern Extended Milllimeter Array. We find that two currently independently confirmed CO sources in COLDz are "optically dark", and that three of them are dust-obscured galaxies at z > 5. Given our survey area of ∼60 arcmin2, our results appear to imply a ∼6–55 times higher space density of such distant dusty systems within the first billion years after the Big Bang than previously thought. At least two of these z > 5 galaxies show star formation rate surface densities consistent with so-called "maximum" starbursts, but we find significant differences in CO excitation between them. This result may suggest that different fractions of the massive gas reservoirs are located in the dense, star-forming nuclear regions—consistent with the more extended sizes of the [C ii ] emission compared to the dust continuum and higher [C ii ]-to-far-infrared luminosity ratios in those galaxies with lower gas excitation. We thus find substantial variations in the conditions for star formation between z > 5 dusty starbursts, which typically have dust temperatures that are ∼57% ± 25% warmer than starbursts at z = 2–3 due to their enhanced star formation activity. [ABSTRACT FROM AUTHOR]

Published

2020

24. DISCOVERY OF A GALAXY CLUSTER WITH A VIOLENTLY STARBURSTING CORE AT z=2.506

Author

University of Helsinki, Department of Physics, Wang, Tao, Elbaz, David, Daddi, Emanuele, Finoguenov, Alexis, Liu, Daizhong, Schreiber, Corentin, Martin, Sergio, Strazzullo, Veronica, Valentino, Francesco, van der Burg, Remco, Zanella, Anita, Ciesla, Laure, Gobat, Raphael, Le Brun, Amandine, Pannella, Maurilio, Sargent, Mark, Shu, Xinwen, Tan, Qinghua, Cappelluti, Nico, Li, Yanxia, University of Helsinki, Department of Physics, Wang, Tao, Elbaz, David, Daddi, Emanuele, Finoguenov, Alexis, Liu, Daizhong, Schreiber, Corentin, Martin, Sergio, Strazzullo, Veronica, Valentino, Francesco, van der Burg, Remco, Zanella, Anita, Ciesla, Laure, Gobat, Raphael, Le Brun, Amandine, Pannella, Maurilio, Sargent, Mark, Shu, Xinwen, Tan, Qinghua, Cappelluti, Nico, and Li, Yanxia

Abstract

We report the discovery of a remarkable concentration of massive galaxies with extended X-ray emission at z(spec) = 2.506, which contains 11 massive (M-* greater than or similar to 10(11) M-circle dot) galaxies in the central 80 kpc region (11.6 sigma overdensity). We have spectroscopically confirmed 17 member galaxies with 11 from CO and the remaining ones from Ha. The X-ray luminosity, stellar mass content, and velocity dispersion all point to a collapsed, cluster-sized dark matter halo with mass M-200c = 10(13.9 +/- 0.2) M-circle dot, making it the most distant X-ray-detected cluster known to date. Unlike other clusters discovered so far, this structure is dominated by star-forming galaxies (SFGs) in the core with only 2 out of the 11 massive galaxies classified as quiescent. The star formation rate (SFR) in the 80 kpc core reaches similar to 3400 M-circle dot yr(-1) with a. gas depletion time of similar to 200 Myr, suggesting that we caught this cluster in rapid build-up of a dense core. The high SFR is driven by both a high abundance of SFGs and a higher starburst fraction (similar to 25%, compared to 3%-5% in the field). The presence of both a collapsed, cluster-sized halo and a predominant population of massive SFGs suggests that this structure could represent an important transition phase between protoclusters and mature clusters. It provides evidence that the main phase of massive galaxy passivization will take place after galaxies accrete onto the cluster, providing new insights into massive cluster formation at early epochs. The large integrated stellar mass at such high redshift challenges our understanding of massive cluster formation.

Published

2016

25. The FMOS-COSMOS Survey of Star-forming Galaxies at Z ~ 1.6. V: Properties of Dark Matter Halos Containing Hα Emitting Galaxies

Author

Kashino, Daichi, More, Surhud, Silverman, John D., Daddi, Emanuele, Renzini, Alvio, Sanders, David B., Rodighiero, Giulia, Puglisi, Annagrazia, Kajisawa, Masaru, Valentino, Francesco, Kartaltepe, Jeyhan S., Fèvre, Olivier Le, Nagao, Tohru, Arimoto, Nobuo, and Sugiyama, Naoshi

Subjects

galaxies: halos, galaxies: formation, galaxies: evolution

Abstract

We study the properties of dark matter halos that contain star-forming galaxies at 1.43 ≤ z ≤ 1.74, using the FMOS-COSMOS survey. The sample consists of 516 objects with a detection of the Hα emission line, which represent the star forming population at this epoch, having a stellar mass range of 10^9.57 ≤ M */M ⊙ lesssim 10^11.4 and a star-formation rate range of 15 lesssim SFR/(M ⊙ yr^−1) lesssim ^600. We measure the projected two-point correlation function while carefully taking into account observational biases, and find a significant clustering amplitude at scales of 0.04–10 h ^−1 cMpc, with a correlation length r0 =5.26-0.62^+0.75h^-1cMpc and a bias b =2.44-0.32^+0.38. We interpret our clustering measurement using a halo occupation distribution model. The sample galaxies appear to reside in halos with mass Mh=4.71-1.62^+1.19×10^12h^-1,M⊙ on average, which will likely become present-day halos of mass M h (z = 0) ~ 2 × 10^13 h ^−1 M ⊙, equivalent to the typical halo mass scale of galaxy groups. We then confirm the decline of the stellar-to-halo mass ratio at M h < 10^12 M ⊙, finding M */M h ≈ 5 × 10^−3 at M h = 7. 5 × 10^11 M ⊙, which is lower by a factor of 2–4 than those measured at higher masses (M h ~ 10^12–13 M ⊙). Finally, we use our results to illustrate the future capabilities of Subaru's Prime-Focus Spectrograph, a next-generation instrument that will provide strong constraints on the galaxy-formation scenario by obtaining precise measurements of galaxy clustering at z>1.

Published

2017

26. The long lives of giant clumps and the birth of outflows in gas-rich galaxies at high redshift

Author

Bournaud, Frédéric, Perret, Valentin, Renaud, Florent, Dekel, Avishai, Elmegreen, Bruce G, Elmegreen, Debra M, Teyssier, Romain, Amram, Philippe, Daddi, Emanuele, Duc, Pierre-Alain, Elbaz, David, Epinat, Benoit, Gabor, Jared M, Juneau, Stéphanie, Kraljic, Katarina, Le Floch', Emeric, Bournaud, Frédéric, Perret, Valentin, Renaud, Florent, Dekel, Avishai, Elmegreen, Bruce G, Elmegreen, Debra M, Teyssier, Romain, Amram, Philippe, Daddi, Emanuele, Duc, Pierre-Alain, Elbaz, David, Epinat, Benoit, Gabor, Jared M, Juneau, Stéphanie, Kraljic, Katarina, and Le Floch', Emeric

Abstract

Star-forming disk galaxies at high redshift are often subject to violent disk instability, characterized by giant clumps whose fate is yet to be understood. The main question is whether the clumps disrupt within their dynamical timescale (≤50 Myr), like the molecular clouds in today's galaxies, or whether they survive stellar feedback for more than a disk orbital time (300 Myr) in which case they can migrate inward and help building the central bulge. We present 3.5-7 pc resolution adaptive mesh refinement simulations of high-redshift disks including photoionization, radiation pressure, and supernovae feedback. Our modeling of radiation pressure determines the mass loading and initial velocity of winds from basic physical principles. We find that the giant clumps produce steady outflow rates comparable to and sometimes somewhat larger than their star formation rate, with velocities largely sufficient to escape the galaxy. The clumps also lose mass, especially old stars, by tidal stripping, and the stellar populations contained in the clumps hence remain relatively young (≤200 Myr), as observed. The clumps survive gaseous outflows and stellar loss, because they are wandering in gas-rich turbulent disks from which they can reaccrete gas at high rates compensating for outflows and tidal stripping, overall keeping realistic and self-regulated gaseous and stellar masses. The outflow and accretion rates have specific timescales of a few 108 yr, as opposed to rapid and repeated dispersion and reformation of clumps. Our simulations produce gaseous outflows with velocities, densities, and mass loading consistent with observations, and at the same time suggest that the giant clumps survive for hundreds of Myr and complete their migration to the center of high-redshift galaxies. These long-lived clumps are gas-dominated and contain a moderate mass fraction of stars; they drive inside-out disk evolution, thickening, spheroid growth, and fueling of the central black hole.

Published

2013

27. POLYCYCLIC AROMATIC HYDROCARBON AND MID-INFRARED CONTINUUM EMISSION IN A z > 4 SUBMILLIMETER GALAXY.

Author

Riechers, Dominik A., Pope, Alexandra, Daddi, Emanuele, Armus, Lee, Carilli, Christopher L., Walter, Fabian, Hodge, Jacqueline, Chary, Ranga-Ram, Morrison, Glenn E., Dickinson, Mark, Dannerbauer, Helmut, and Elbaz, David

Subjects

POLYCYCLIC aromatic hydrocarbons, POLYCYCLIC aromatic compounds, GALACTIC redshift, STAR formation, GALACTIC nuclei, ASTROPHYSICS research

Abstract

We report the detection of 6.2 μm polycyclic aromatic hydrocarbon (PAH) and rest-frame 4-7 μm continuum emission in the z = 4.055 submillimeter galaxy GN20, using the Infrared Spectrograph on board the Spitzer Space Telescope. This represents the first detection of PAH emission at z > 4. The strength of the PAH emission feature is consistent with a very high star formation rate of ∼1600 M☼ yr–1. We find that this intense starburst powers at least ∼1/3 of the faint underlying 6 μm continuum emission, with an additional, significant (and perhaps dominant) contribution due to a power-law-like hot dust source, which we interpret to likely be a faint, dust-obscured active galactic nucleus (AGN). The inferred 6 μm AGN continuum luminosity is consistent with a sensitive upper limit on the hard X-ray emission as measured by the Chandra X-Ray Observatory if the previously undetected AGN is Compton-thick. This is in agreement with the finding at optical/infrared wavelengths that the galaxy and its nucleus are heavily dust-obscured. Despite the strong power-law component enhancing the mid-infrared continuum emission, the intense starburst associated with the photon-dominated regions that give rise to the PAH emission appears to dominate the total energy output in the infrared. GN20 is one of the most luminous starburst galaxies known at any redshift, embedded in a rich protocluster of star-forming galaxies. This investigation provides an improved understanding of the energy sources that power such exceptional systems, which represent the extreme end of massive galaxy formation at early cosmic times. [ABSTRACT FROM AUTHOR]

Published

2014

28. THE LONG LIVES OF GIANT CLUMPS AND THE BIRTH OF OUTFLOWS IN GAS-RICH GALAXIES AT HIGH REDSHIFT.

Author

Bournaud, Frédéric, Perret, Valentin, Renaud, Florent, Dekel, Avishai, Elmegreen, Bruce G., Elmegreen, Debra M., Teyssier, Romain, Amram, Philippe, Daddi, Emanuele, Duc, Pierre-Alain, Elbaz, David, Epinat, Benoit, Gabor, Jared M., Juneau, Stéphanie, Kraljic, Katarina, and Floch', Emeric Le

Subjects

BIPOLAR outflows (Astrophysics), ASTROPHYSICS, GALAXIES, ASTRONOMY, REDSHIFT

Abstract

Star-forming disk galaxies at high redshift are often subject to violent disk instability, characterized by giant clumps whose fate is yet to be understood. The main question is whether the clumps disrupt within their dynamical timescale (⩽50 Myr), like the molecular clouds in today's galaxies, or whether they survive stellar feedback for more than a disk orbital time (≈300 Myr) in which case they can migrate inward and help building the central bulge. We present 3.5-7 pc resolution adaptive mesh refinement simulations of high-redshift disks including photoionization, radiation pressure, and supernovae feedback. Our modeling of radiation pressure determines the mass loading and initial velocity of winds from basic physical principles. We find that the giant clumps produce steady outflow rates comparable to and sometimes somewhat larger than their star formation rate, with velocities largely sufficient to escape the galaxy. The clumps also lose mass, especially old stars, by tidal stripping, and the stellar populations contained in the clumps hence remain relatively young (⩽200 Myr), as observed. The clumps survive gaseous outflows and stellar loss, because they are wandering in gas-rich turbulent disks from which they can reaccrete gas at high rates compensating for outflows and tidal stripping, overall keeping realistic and self-regulated gaseous and stellar masses. The outflow and accretion rates have specific timescales of a few 108 yr, as opposed to rapid and repeated dispersion and reformation of clumps. Our simulations produce gaseous outflows with velocities, densities, and mass loading consistent with observations, and at the same time suggest that the giant clumps survive for hundreds of Myr and complete their migration to the center of high-redshift galaxies. These long-lived clumps are gas-dominated and contain a moderate mass fraction of stars; they drive inside-out disk evolution, thickening, spheroid growth, and fueling of the central black hole. [ABSTRACT FROM AUTHOR]

Published

2014

29. PROBING THE INTERSTELLAR MEDIUM OF z ~ 1 ULTRALUMINOUS INFRARED GALAXIES THROUGH INTERFEROMETRIC OBSERVATIONS OF CO AND SPITZER MID-INFRARED SPECTROSCOPY.

Author

POPE, ALEXANDRA, WAGG, JEFF, FRAYER, DAVID, ARMUS, LEE, CHARY, RANGA-RAM, DADDI, EMANUELE, DESAI, VANDANA, DICKINSON, MARK E., ELBAZ, DAVID, GABOR, JARED, and KIRKPATRICK, ALLISON

Subjects

INFRARED spectroscopy, ACTIVE galactic nuclei, STAR formation, POLYCYCLIC aromatic hydrocarbons, GALACTIC evolution

Abstract

We explore the relationship between gas, dust, and star formation in a sample of 12 ultraluminous infrared galaxies (ULIRGs) at high-redshift compared to a similar sample of local galaxies.We present new CO observations and/or Spitzer mid-IR spectroscopy for six 70 μm selected galaxies at z ~ 1 in order to quantify the properties of the molecular gas reservoir, the contribution of an active galactic nucleus (AGN) to the mid-IR luminosity, and the star formation efficiency (SFE = LIR/L'CO). The mid-IR spectra show strong polycyclic aromatic hydrocarbon (PAH) emission, and our spectral decomposition suggests that the AGN makes a minimal contribution (<25%) to the mid-IR luminosity. The 70 μm selected ULIRGs, which we find to be spectroscopic close pairs, are observed to have high SFE, similar to local ULIRGs and high-redshift submillimeter galaxies, consistent with enhanced IR luminosity due to an ongoing major merger. Combined with existing observations of local and high-redshift ULIRGs, we further compare the PAH, IR, and CO luminosities. We show that the ratio LPAH,6.2/LIR decreases with increasing IR luminosity for both local and high-redshift galaxies, but the trend for high-redshift galaxies is shifted to higher IR luminosities; the average LPAH,6.2/LIR ratio at a given LIR is ~3 times higher at high-redshift. When we normalize by the molecular gas, we find this trend to be uniform for galaxies at all redshifts and that the molecular gas is correlated with the PAH dust emission. The similar trends seen in the [C II] to molecular gas ratios in other studies suggests that PAH emission, like [C II], continues to be a good tracer of photodissociation regions even at high-redshift. Together the CO, PAH, and far-IR fine structure lines should be useful for constraining the interstellar medium conditions in high-redshift galaxies. [ABSTRACT FROM AUTHOR]

Published

2013

30. ON THE EFFECT OF THE COSMIC MICROWAVE BACKGROUND IN HIGH-REDSHIFT (SUB-)MILLIMETER OBSERVATIONS.

Author

DA CUNHA, ELISABETE, GROVES, BRENT, WALTER, FABIAN, DECARLI, ROBERTO, WEISS, AXEL, BERTOLDI, FRANK, CARILLI, CHRIS, DADDI, EMANUELE, ELBAZ, DAVID, IVISON, ROB, MAIOLINO, ROBERTO, RIECHERS, DOMINIK, RIX, HANS-WALTER, SARGENT, MARK, and SMAIL, IAN

Subjects

COSMIC background radiation, GALACTIC redshift, DUST, SPECTRAL energy distribution, ATMOSPHERIC carbon monoxide, ASTROPHYSICS research

Abstract

Modern (sub-)millimeter interferometers enable the measurement of the cool gas and dust emission of high-redshift galaxies (z > 5). However, at these redshifts the cosmic microwave background (CMB) temperature is higher, approaching, and even exceeding, the temperature of cold dust and molecular gas observed in the local universe. In this paper, we discuss the impact of the warmer CMB on (sub-)millimeter observations of high-redshift galaxies. The CMB affects the observed (sub-)millimeter dust continuum and the line emission (e.g., carbon monoxide, CO) in two ways: (1) it provides an additional source of (both dust and gas) heating and (2) it is a non-negligible background against which the line and continuum emission are measured. We show that these two competing processes affect the way we interpret the dust and gas properties of high-redshift galaxies using spectral energy distribution models. We quantify these effects and provide correction factors to compute what fraction of the intrinsic dust (and line) emission can be detected against the CMB as a function of frequency, redshift, and temperature. We discuss implications on the derived properties of high-redshift galaxies from (sub-)millimeter data. Specifically, the inferred dust and molecular gas masses can be severely underestimated for cold systems if the impact of the CMB is not properly taken into account. [ABSTRACT FROM AUTHOR]

Published

2013

31. ON STAR FORMATION RATES AND STAR FORMATION HISTORIES OF GALAXIES OUT TO z ~ 3.

Author

WUYTS, STIJN, SCHREIBER, NATASCHA M. FÖRSTER, LUTZ, DIETER, NORDON, RAANAN, BERTA, STEFANO, ALTIERI, BRUNO, ANDREANI, PAOLA, AUSSEL, HERVÉ, BONGIOVANNI, ANGEL, CEPA, JORDI, CIMATTI, ANDREA, DADDI, EMANUELE, ELBAZ, DAVID, GENZEL, REINHARD, KOEKEMOER, ANTON M., MAGNELLI, BENJAMIN, MAIOLINO, ROBERTO, MCGRATH, ELIZABETH J., GARCÍA, ANA PÉREZ, and POGLITSCH, ALBRECHT

Subjects

STAR formation, PHOTOMETRY, GALAXIES, REDSHIFT, SPECTRAL energy distribution

Abstract

We compare multi-wavelength star formation rate (SFR) indicators out to z ~ 3 in the GOODS-South field. Our analysis uniquely combines U to 8 µm photometry from FIREWORKS, MIPS 24 µm and PACS 70, 100, and 160 µm photometry from the PEP, and Hα spectroscopy from the SINS survey. We describe a set of conversions that lead to a continuity across SFR indicators. A luminosity-independent conversion from 24/um to total infrared luminosity yields estimates of LIR that are in the median consistent with the LIR derived from PACS photometry, albeit with significant scatter. Dust correction methods perform well at low-to-intermediate levels of star formation. They fail to recover the total amount of star formation in systems with large SFRIR/SFRUV ratios, typically occuring at the highest SFRs (SFRUV+IR ≳ 100 M⊙ yr-1) and redshifts (z ≳ 2.5) probed. Finally, we confirm that Hα-based SFRs at 1.5 < z < 2.6 are consistent with SFRSED and SFRUV+IR provided extra attenuation toward H II regions is taken into account (AV,neb = AV,continuum/0.44). With the cross-calibrated SFR indicators in hand, we perform a consistency check on the star formation histories inferred from spectral energy distribution (SED) modeling. We compare the observed SFR-M relations and mass functions at a range of redshifts to equivalents that are computed by evolving lower redshift galaxies backward in time. We find evidence for underestimated stellar ages when no stringent constraints on formation epoch are applied in SED modeling. We demonstrate how resolved SED modeling, or alternatively deep UV data, may help to overcome this bias. The age bias is most severe for galaxies with young stellar populations and reduces toward older systems. Finally, our analysis suggests that SFHs typically vary on timescales that are long (at least several 100 Myr) compared to the galaxies' dynamical time. [ABSTRACT FROM AUTHOR]

Published

2011

32. Redshifts of Emission-Line Objects in the Hubble Ultra Deep Field.

Author

Xu, Chun, Pirzkal, Norbert, Malhotra, Sangeeta, Rhoads, James E., Mobasher, Bahram, Daddi, Emanuele, Gronwall, Caryl, Hathi, Nimish P., Panagia, Nino, Ferguson, Henry C., Koekemoer, Anton M., Kümmel, Martin, Moustakas, Leonidas A., Pasquali, Anna, Alighieri, Sperello di Serego, Vernet, Joel, Walsh, Jeremy R., Windhorst, Rogier, and Yan, Haojing

Published

2007

33. IRAC Mid-Infrared Imaging of the Hubble Deep Field-South: Star Formation Histories and Stellar Masses of Red Galaxies at z > 2Based on observations made with the Spitzer Space Telescope, which is operated by the Jet Propulsion Laboratory, California Institute of Technology, under NASA contract 1407. Support for this work was provided by NASA through contract 125790 issued by JPL/Caltech. Based on service-mode observations collected at the European Southern Observatory, Paranal, Chile (program 164.O-0612). Based on observations with the NASA/ESA Hubble Space Telescope, obtained at the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., under NASA contract NAS 5-26555

Author

Labbé, Ivo, Huang, Jiasheng, Franx, Marijn, Rudnick, Gregory, Barmby, Pauline, Daddi, Emanuele, Dokkum, Pieter G. van, Fazio, Giovanni G., Schreiber, Natascha M. Förster, Moorwood, Alan F. M., Rix, Hans-Walter, Röttgering, Huub, Trujillo, Ignacio, and Werf, Paul van der

Published

2005

34. A Redshift z ≈ 5.4 Lyα Emitting Galaxy with Linear Morphology in the GRAPES/Hubble Ultra Deep Field.

Author

Rhoads, James E., Panagia, Nino, Windhorst, Rogier A., Malhotra, Sangeeta, Pirzkal, Norbert, Xu, Chun, Strolger, Louis Gregory, Bergeron, Louis E., Daddi, Emanuele, Ferguson, Harry, Gardner, Jonathan P., Gronwall, Caryl, Haiman, Zoltan, Koekemoer, Anton, Kümmel, Martin, Moustakas, Leonidas A., Pasquali, Anna, Riess, Adam, Alighieri, Sperello di Serego, and Stiavelli, Massimo

Published

2005

35. Stellar Populations and Kinematics of Red Galaxies at z > 2: Implications for the Formation of Massive GalaxiesBased on observations obtained at the W. M. Keck Observatory, which is operated jointly by the California Institute of Technology and the University of California, and on observations collected at the European Southern Observatory, Paranal, Chile (ESO LP 164.O-0612).

Author

Dokkum, Pieter G. van, Franx, Marijn, Schreiber, Natascha M. Förster, Illingworth, Garth D., Daddi, Emanuele, Knudsen, Kirsten Kraiberg, Labbé, Ivo, Moorwood, Alan, Rix, Hans-Walter, Röttgering, Huub, Rudnick, Gregory, Trujillo, Ignacio, Werf, Paul van der, Wel, Arjen van der, Starkenburg, Lottie van, and Wuyts, Stijn

Published

2004

36. ACTIVE GALACTIC NUCLEI EMISSION LINE DIAGNOSTICS AND THE MASS-METALLICITY RELATION UP TO REDSHIFT z ∼ 2: THE IMPACT OF SELECTION EFFECTS AND EVOLUTION.

Author

Juneau, Stéphanie, Bournaud, Frédéric, Charlot, Stéphane, Daddi, Emanuele, Elbaz, David, Trump, Jonathan R., Brinchmann, Jarle, Dickinson, Mark, Duc, Pierre-Alain, Gobat, Raphael, Jean-Baptiste, Ingrid, Floc'h, Émeric Le, Lehnert, M. D., Pacifici, Camilla, Pannella, Maurilio, and Schreiber, Corentin

Subjects

ACTIVE galactic nuclei, GALACTIC redshift, STAR formation, GALACTIC evolution

Abstract

Emission line diagnostic diagrams probing the ionization sources in galaxies, such as the Baldwin-Phillips-Terlevich (BPT) diagram, have been used extensively to distinguish active galactic nuclei (AGN) from purely star-forming galaxies. However, they remain poorly understood at higher redshifts. We shed light on this issue with an empirical approach based on a z ∼ 0 reference sample built from ∼300,000 Sloan Digital Sky Survey galaxies, from which we mimic selection effects due to typical emission line detection limits at higher redshift. We combine this low-redshift reference sample with a simple prescription for luminosity evolution of the global galaxy population to predict the loci of high-redshift galaxies on the BPT and Mass-Excitation (MEx) diagnostic diagrams. The predicted bivariate distributions agree remarkably well with direct observations of galaxies out to z ∼ 1.5, including the observed stellar mass-metallicity (MZ) relation evolution. As a result, we infer that high-redshift star-forming galaxies are consistent with having normal interstellar medium (ISM) properties out to z ∼ 1.5, after accounting for selection effects and line luminosity evolution. Namely, their optical line ratios and gas-phase metallicities are comparable to that of low-redshift galaxies with equivalent emission-line luminosities. In contrast, AGN narrow-line regions may show a shift toward lower metallicities at higher redshift. While a physical evolution of the ISM conditions is not ruled out for purely star-forming galaxies and may be more important starting at z ≳ 2, we find that reliably quantifying this evolution is hindered by selections effects. The recipes provided here may serve as a basis for future studies toward this goal. Code to predict the loci of galaxies on the BPT and MEx diagnostic diagrams and the MZ relation as a function of emission line luminosity limits is made publicly available. [ABSTRACT FROM AUTHOR]

Published

2014

37. EVIDENCE FOR A WIDE RANGE OF ULTRAVIOLET OBSCURATION IN z ∼ 2 DUSTY GALAXIES FROM THE GOODS-HERSCHEL SURVEY.

Author

Penner, Kyle, Dickinson, Mark, Pope, Alexandra, Dey, Arjun, Magnelli, Benjamin, Pannella, Maurilio, Altieri, Bruno, Aussel, Herve, Buat, Veronique, Bussmann, Shane, Charmandaris, Vassilis, Coia, Daniela, Daddi, Emanuele, Dannerbauer, Helmut, Elbaz, David, Hwang, Ho Seong, Kartaltepe, Jeyhan, Lin, Lihwai, Magdis, Georgios, and Morrison, Glenn

Subjects

GALAXIES, INTERPLANETARY dust, INTERSTELLAR medium, ULTRAVIOLET radiation, POLYCYCLIC aromatic hydrocarbons

Abstract

Dusty galaxies at z ∼ 2 span a wide range of relative brightness between rest-frame mid-infrared (8 μm) and ultraviolet wavelengths. We attempt to determine the physical mechanism responsible for this diversity. Dust-obscured galaxies (DOGs), which have rest-frame mid-IR to UV flux density ratios ≳ 1000, might be abnormally bright in the mid-IR, perhaps due to prominent emission from active galactic nuclei and/or polycyclic aromatic hydrocarbons, or abnormally faint in the UV. We use far-infrared data from the GOODS-Herschel survey to show that most DOGs with 1012L☼ ≲ LIR ≲ 1013L☼ are not abnormally bright in the mid-IR when compared to other dusty galaxies with similar IR (8-1000 μm) luminosities. We observe a relation between the median IR to UV luminosity ratios and the median UV continuum power-law indices for these galaxies, and we find that only 24% have specific star formation rates that indicate the dominance of compact star-forming regions. This circumstantial evidence supports the idea that the UV- and IR-emitting regions in these galaxies are spatially coincident, which implies a connection between the abnormal UV faintness of DOGs and dust obscuration. We conclude that the range in rest-frame mid-IR to UV flux density ratios spanned by dusty galaxies at z ∼ 2 is due to differing amounts of UV obscuration. Of galaxies with these IR luminosities, DOGs are the most obscured. We attribute differences in UV obscuration to either (1) differences in the degree of alignment between the spatial distributions of dust and massive stars or (2) differences in the total dust content. [ABSTRACT FROM AUTHOR]

Published

2012

38. A UNIFIED EMPIRICAL MODEL FOR INFRARED GALAXY COUNTS BASED ON THE OBSERVED PHYSICAL EVOLUTION OF DISTANT GALAXIES.

Author

Béthermin, Matthieu, Daddi, Emanuele, Magdis, Georgios, Sargent, Mark T., Hezaveh, Yashar, Elbaz, David, Le Borgne, Damien, Mullaney, James, Pannella, Maurilio, Buat, Véronique, Charmandaris, Vassilis, Lagache, Guilaine, and Scott, Douglas

Published

2012

39. AN OBSERVED LINK BETWEEN ACTIVE GALACTIC NUCLEI AND VIOLENT DISK INSTABILITIES IN HIGH-REDSHIFT GALAXIES.

Author

Bournaud, Frédéric, Juneau, Stéphanie, Le Floc'h, Emeric, Mullaney, James, Daddi, Emanuele, Dekel, Avishai, Duc, Pierre-Alain, Elbaz, David, Salmi, Fadia, and Dickinson, Mark

Subjects

ACTIVE galactic nuclei, ACCRETION disks, PROTOPLANETARY disks, BLACK holes, STAR formation

Abstract

We provide evidence for a correlation between the presence of giant clumps and the occurrence of active galactic nuclei (AGNs) in disk galaxies. Giant clumps of 108-109M☼ arise from violent gravitational instability in gas-rich galaxies, and it has been proposed that this instability could feed supermassive black holes (BHs). We use emission line diagnostics to compare a sample of 14 clumpy (unstable) disks and a sample of 13 smoother (stable) disks at redshift z ∼ 0.7. The majority of clumpy disks in our sample have a high probability of containing AGNs. Their [O III] λ5007 emission line is strongly excited, inconsistent with low-metallicity star formation (SF) alone. [Ne III] λ3869 excitation is also higher. Stable disks rarely have such properties. Stacking ultra sensitive Chandra observations (4 Ms) reveals an X-ray excess in clumpy galaxies, which confirms the presence of AGNs. The clumpy galaxies in our intermediate-redshift sample have properties typical of gas-rich disk galaxies rather than mergers, being in particular on the main sequence of SF. This suggests that our findings apply to the physically similar and numerous gas-rich unstable disks at z > 1. Using the observed [O III] and X-ray luminosities, we conservatively estimate that AGNs hosted by clumpy disks have typical bolometric luminosities of the order of a few 1043 erg s–1, BH growth rates yr–1, and that these AGNs are substantially obscured in X-rays. This moderate-luminosity mode could provide a large fraction of today's BH mass with a high duty cycle (>10%), accretion bursts with higher luminosities being possible over shorter phases. Violent instabilities at high redshift (giant clumps) are a much more efficient driver of BH growth than the weak instabilities in nearby spirals (bars), and the evolution of disk instabilities with mass and redshift could explain the simultaneous downsizing of SF and of BH growth. [ABSTRACT FROM AUTHOR]

Published

2012

40. A WIDE AREA SURVEY FOR HIGH-REDSHIFT MASSIVE GALAXIES. II. NEAR-INFRARED SPECTROSCOPY OF BzK-SELECTED MASSIVE STAR-FORMING GALAXIES.

Author

Onodera, Masato, Arimoto, Nobuo, Daddi, Emanuele, Renzini, Alvio, Kong, Xu, Cimatti, Andrea, Broadhurst, Tom, and Alexander, Dave M.

Published

2010

41. EARLY-TYPE GALAXIES IN THE PEARS SURVEY: PROBING THE STELLAR POPULATIONS AT MODERATE REDSHIFT.

Author

Ferreras, Ignacio, Pasquali, Anna, Malhotra, Sangeeta, Rhoads, James, Cohen, Seth, Windhorst, Rogier, Pirzkal, Nor, Grogin, Norman, Koekemoer, Anton M., Lisker, Thorsten, Panagia, Nino, Daddi, Emanuele, and Hathi, Nimish P.

Published

2009

42. THE SINS SURVEY: BROAD EMISSION LINES IN HIGH-REDSHIFT STAR-FORMING GALAXIES.

Author

Shapiro, Kristen L., Genzel, Reinhard, Quataert, Eliot, Förster Schreiber, Natascha M., Davies, Richard, Tacconi, Linda, Armus, Lee, Bouché, Nicolas, Buschkamp, Peter, Cimatti, Andrea, Cresci, Giovanni, Daddi, Emanuele, Eisenhauer, Frank, Erb, Dawn K., Genel, Shy, Hicks, Erin K. S., Lilly, Simon J., Lutz, Dieter, Renzini, Alvio, and Shapley, Alice

Published

2009

43. Kinemetry of SINS High-Redshift Star-Forming Galaxies: Distinguishing Rotating Disks from Major Mergers.

Author

Shapiro, Kristen L., Genzel, Reinhard, Förster Schreiber, Natascha M., Tacconi, Linda J., Bouché, Nicolas, Cresci, Giovanni, Davies, Richard, Eisenhauer, Frank, Johansson, Peter H., Krajnović, Davor, Lutz, Dieter, Naab, Thorsten, Arimoto, Nobuo, Arribas, Santiago, Cimatti, Andrea, Colina, Luis, Daddi, Emanuele, Daigle, Olivier, Erb, Dawn, and Hernandez, Olivier

Published

2008

44. The Luminosity-Size and Mass-Size Relations of Galaxies out to z ~ 3.

Author

Trujillo, Ignacio, Rudnick, Gregory, Rix, Hans-Walter, Labbé, Ivo, Franx, Marijn, Daddi, Emanuele, van Dokkum, Pieter G., Förster Schreiber, Natascha M., Kuijken, Konrad, Moorwood, Alan, Röttgering, Huub, van de Wel, Arjen, van der Werf, Paul, and van Starkenburg, Lottie

Published

2004

45. The Redshift Distribution of Near-Infrared-selected Galaxies in the Great Observatories Origins Deep Survey as a Test of Galaxy Formation Scenarios.

Author

Somerville, Rachel S., Moustakas, Leonidas A., Mobasher, Bahram, Gardner, Jonathan P., Cimatti, Andrea, Conselice, Christopher, Daddi, Emanuele, Dahlen, Tomas, Dickinson, Mark, Eisenhardt, Peter, Lotz, Jennifer, Papovich, Casey, Renzini, Alvio, and Stern, Daniel

Published

2004

46. Large Disklike Galaxies at High Redshift.

Author

Labbé, Ivo, Rudnick, Gregory, Franx, Marijn, Daddi, Emanuele, van Dokkum, Pieter G., Förster Schreiber, Natascha M., Kuijken, Konrad, Moorwood, Alan, Rix, Hans-Walter, Röttgering, Huub, Trujillo, Ignacio, van der Wel, Arjen, van der Werf, Paul, and van Starkenburg, Lottie

Published

2003

47. Spectroscopic Confirmation of a Substantial Population of Luminous Red Galaxies at Redshifts z ≳ 2.

Author

van Dokkum, Pieter G., Förster Schreiber, Natascha M., Franx, Marijn, Daddi, Emanuele, Illingworth, Garth D., Labbé, Ivo, Moorwood, Alan, Rix, Hans-Walter, Röttgering, Huub, Rudnick, Gregory, van der Wel, Arjen, van der Werf, Paul, and van Starkenburg, Lottie

Published

2003

48. A Significant Population of Red, Near-Infrared-selected High-Redshift Galaxies.

Author

Franx, Marijn, Labbé, Ivo, Rudnick, Gregory, van Dokkum, Pieter G., Daddi, Emanuele, Förster Schreiber, Natascha M., Moorwood, Alan, Rix, Hans-Walter, Röttgering, Huub, van de Wel, Arjen, van der Werf, Paul, and van Starkenburg, Lottie

Published

2003

49. Ultradeep Near-Infrared ISAAC Observations of the Hubble Deep Field South: Observations, Reduction, Multicolor Catalog, and Photometric Redshifts.

Author

Labbé, Ivo, Franx, Marijn, Rudnick, Gregory, Schreiber, Natascha M. Förster, Rix, Hans-Walter, Moorwood, Alan, van Dokkum, Pieter G., van der Werf, Paul, Röttgering, Huub, van Starkenburg, Lottie, van de Wel, Arjen, Kuijken, Konrad, and Daddi, Emanuele

Published

2003