Your search keyword '"Cirasuolo, Michele"' showing total 170 results

151. Obscured star formation at z= 0.84 with HiZELS.

Author

Garn, Timothy, Sobral, David, Best, Philip N., Geach, James E., Smail, Ian, Cirasuolo, Michele, Dalton, Gavin B., Dunlop, James S., McLure, Ross J., and Farrah, Duncan

Subjects

STAR formation, GALAXIES, EMISSIONS (Air pollution), DENSITY, TELESCOPES

Abstract

We compare Hα, ultraviolet (UV) and infrared (IR) indicators of star formation rate (SFR) for a well-defined sample of emission-line galaxies from the High- z Emission Line Survey (HiZELS). Using emission-line, optical, IR, radio and X-ray diagnostics, we estimate that 5–11 per cent of Hα emitters at this redshift are active galactic nuclei. We detect 35 per cent of the Hα emitters individually at 24 μm, and stack the locations of star-forming emitters on deep 24-μm Spitzer Space Telescope images in order to calculate the typical SFRs of our Hα-emitting galaxies. These are compared to the observed Hα line fluxes in order to estimate the extinction at , and we find a significant increase in dust extinction for galaxies with higher SFRs. We demonstrate that the relationship between SFR and extinction found in the local Universe is also suitable for our high-redshift galaxies, and attribute the overall increase in the typical dust extinction for galaxies to an increase in the average SFR, rather than to a change in dust properties at higher redshift. We calculate the UV extinction, and find a similar dependence on SFR to the Hα results, but no evidence for a 2175 Å UV bump in the dust attenuation law for high-redshift star-forming galaxies. By comparing Hα and UV indicators, we calculate the conversion between the dust attenuation of nebular and stellar radiation, γ, and show that . The extinction/SFR relationship is shown to be applicable to galaxies with a range of morphologies and bulge-to-disc ratios, to both merging and non-merging galaxies, and to galaxies within high- and low-density environments, implying that it is a fundamental property of star-forming regions. In order to allow future studies to easily correct for a SFR-dependent amount of dust extinction, we present an equation to predict the extinction of a galaxy, based solely on its observed Hα luminosity, and use this to recalculate the Hα luminosity function and SFR density at . [ABSTRACT FROM AUTHOR]

Published

2010

152. MOONS – multi object spectroscopy for the VLT: overview and instrument integration update

Author

Evans, Christopher J., Bryant, Julia J., Motohara, Kentaro, Gonzalez, Oscar, Cirasuolo, Michele, Taylor, William, Black, Martin, Rees, Philip, Bryson, Ian, Chittick, Stephen, Afonso, Jose, Lilly, Simon, Flores, Hector, Maiolino, Roberto, Oliva, Ernesto, Paltani, Stephane, Vanzi, Leonardo, Abreu, Manuel, Amans, Jean-Philippe, Atkinson, David, Beard, Steven, Belfiore, Andrea, Breen, Ciaran, Bayo, Amelia, Born, Andy, Cabral, Alexandre, Chapman, Lee, Cochrane, William, Coelho, João, Colling, Miriam, Conzelmann, Ralf, Dalessio, Francesco, Davidson, George, Delplancke-Ströbele, Françoise, Fisher, Martin, Forchi, Vincenzo, Franzetti, Paolo, Garilli, Bianca, Gargiulo, Adriana, Guinouard, Isabelle, Gutierrez, Pablo, Haigron, Régis, Hammersley, Peter, Ivanov, Valentin, Ives, Derek, Iwert, Olaf, King, David, Kovacz, Suzanne, Laporte, Philippe, Lee, David, Li Causi, Gianluca, Macleod, Alastair, Alvarez Mendez, Domingo, Oliveira, António, Palsa, Ralf, Parra, Manuel, Pedichini, Fernando, Peña, Vicente, Petr-Gotzens, Monika, Rodrigues, Myriam, Royer, Frédéric, Santos, Pedro, Sepulveda, Jorge, Sharman, Robyn, Shen, Tzu-Chiang, Sordet, Michael, Strachan, Jonathan, Tait, Graham, Tejeda, Alexis, Tozzi, Andrea, O'Malley, Norman, Waring, Chris, Watson, Stephen, Willemse, Bart, Gao, Xiaofeng, Yang, Yanbin, and Zoccali, Manuela

Published

2022

153. The metrology system for the multi-object optical and near-infrared spectrograph MOONS

Author

Ramsay, Suzanne K., McLean, Ian S., Takami, Hideki, Torres-Torriti, Miguel, Vanzi, Leonardo, Dünner, Rolando, Belmar, Francisco, Dauvin, Louise, Chen, Tzu-Chiang, Cirasuolo, Michele, Taylor, William, Schnetler, Hermine, Montgomery, David, Rees, Philip, and Cabral, Alexandre

Published

2014

154. Performance of the K-band multi-object spectrograph (KMOS) on the ESO VLT

Author

Ramsay, Suzanne K., McLean, Ian S., Takami, Hideki, Sharples, Ray, Bender, Ralf, Agudo Berbel, Alex, Bennett, Richard, Bezawada, Naidu, Castillo, Roberto, Cirasuolo, Michele, Clark, Paul, Davidson, George, Davies, Richard, Davies, Roger, Dubbeldam, Marc, Fairley, Alasdair, Finger, Gert, Schreiber, Natascha F., Genzel, Reinhard, Haefner, Reinhold, Hess, Achim, Jung, Ives, Lewis, Ian, Montgomery, David, Murray, John, Muschielok, Bernard, Pirard, Jeff, Ramsay, Suzanne, Rees, Philip, Richter, Josef, Robertson, David, Robson, Ian, Rolt, Stephen, Saglia, Roberto, Saviane, Ivo, Schlichter, Joerg, Schmidtobreik, Linda, Segovia, Alex, Smette, Alain, Tecza, Matthias, Todd, Stephen, Wegner, Michael, and Wiezorrek, Erich

Published

2014

155. The ESO Extremely Large Telescope instrumentation programme.

Author

Ellis, Simon C., d'Orgeville, Céline, Ramsay, Suzanne, Amico, Paola, Bezawada, Naidu, Cirasuolo, Michele, Derie, Frédéric, Egner, Sebastian, George, Elizabeth, Gonté, Frédéric, González Herrera, Juan Carlos, Hammersley, Peter, Haupt, Christoph, Heijmans, Jeroen, Ives, Derek, Jakob, Gerd, Kerber, Florian, Koehler, Bertrand, Mainieri, Vincenzo, and Manescau, Antonio

Published

2019

156. The ESO Extremely Large Telescope instrumentation programme

Author

Ellis, Simon C., d'Orgeville, Céline, Ramsay, Suzanne, Amico, Paola, Bezawada, Naidu, Cirasuolo, Michele, Derie, Frédéric, Egner, Sebastian, George, Elizabeth, Gonté, Frédéric, González Herrera, Juan Carlos, Hammersley, Peter, Haupt, Christoph, Heijmans, Jeroen, Ives, Derek, Jakob, Gerd, Kerber, Florian, Koehler, Bertrand, Mainieri, Vincenzo, Manescau, Antonio, Oberti, Sylvain, Padovani, Paolo, Peroux, Celine, Siebenmorgen, Ralf, Tamai, Roberto, and Vernet, Joël

Published

2020

157. MOONRISE: The Main MOONS GTO Extragalactic Survey

Author

Maiolino, Roberto, Cirasuolo, Michele, Afonso, José, Bauer, Franz E., Bowler, Rebecca, Cucciati, Olga, Daddi, Emanuele, De Lucia, Gabriella, Evans, Chris, Flores, Hector, Gargiulo, Adriana, Garilli, Bianca, Jablonka, Pascale, Jarvis, Matt, Kneib, Jean-Paul, Lilly, Simon, Looser, Tobias, Magliocchetti, Manuela, Man, Zhongyi, Mannucci, Filippo, Maurogordato, Sophie, McLure, Ross J., Norberg, Peder, Oesch, Pascal, Oliva, Ernesto, Paltani, Stéphane, Pappalardo, Ciro, Peng, Yingjie, Pentericci, Laura, Pozzetti, Lucia, Renzini, Alvio, Rodrigues, Myriam, Royer, Frédéric, Serjeant, Steve, Vanzi, Leonardo, Wild, Vivienne, and Zamorani, Gianni

Subjects

010308 nuclear & particles physics, 0103 physical sciences, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, 010303 astronomy & astrophysics, 01 natural sciences, Astrophysics::Galaxy Astrophysics

Abstract

The MOONS instrument possesses an exceptional combination of large multiplexing, high sensitivity, broad simultaneous spectral coverage (from optical to near-infrared bands), large patrol area and high fibre density. These properties provide the unprecedented potential of enabling, for the very first time, SDSS-like surveys around Cosmic Noon (z ~ 1–2.5), when the star formation rate in the Universe peaked. The high-quality spectra delivered by MOONS will sample the same nebular and stellar diagnostics observed in extensive surveys of local galaxies, providing an accurate and consistent description of the evolution of various physical properties of galaxies, and hence a solid test of different scenarios of galaxy formation and transformation. Most importantly, by spectroscopically identifying hundreds of thousands of galaxies at high redshift, the MOONS surveys will be capable of determining the environments in which primeval galaxies lived and will reveal how such environments affected galaxy evolution. In this article, we specifically focus on the main Guaranteed Time Observation (GTO) MOONS extragalactic survey, MOONRISE, by providing an overview of its scientific goals and observing strategy., Published in The Messenger vol. 180, pp. 24-29, June 2020.

158. The Science Case for Multi-Object Spectroscopy on the European ELT

Author

Evans, Chris, Puech, Mathieu, Afonso, Jose, Almaini, Omar, Amram, Philippe, Aussel, Hervé, Barbuy, Beatriz, Basden, Alistair, Bastian, Nate, Giuseppina Battaglia, Biller, Beth, Bonifacio, Piercarlo, Bouché, Nicholas, Bunker, Andy, Caffau, Elisabetta, Charlot, Stephane, Cirasuolo, Michele, Clenet, Yann, Combes, Francoise, Conselice, Chris, Contini, Thierry, Cuby, Jean-Gabriel, Dalton, Gavin, Davies, Ben, Koter, Alex, Disseau, Karen, Dunlop, Jim, Epinat, Benoît, Fiore, Fabrizio, Feltzing, Sofia, Ferguson, Annette, Flores, Hector, Fontana, Adriano, Fusco, Thierry, Gadotti, Dimitri, Gallazzi, Anna, Gallego, Jesus, Giallongo, Emanuele, Gonçalves, Thiago, Gratadour, Damien, Guenther, Eike, Hammer, Francois, Hill, Vanessa, Huertas-Company, Marc, Ibata, Roridgo, Kaper, Lex, Korn, Andreas, Larsen, Søren, Le Fèvre, Olivier, Lemasle, Bertrand, Maraston, Claudia, Mei, Simona, Mellier, Yannick, Morris, Simon, Östlin, Göran, Paumard, Thibaut, Pello, Roser, Pentericci, Laura, Peroux, Celine, Petitjean, Patrick, Rodrigues, Myriam, Rodríguez-Muñoz, Lucía, Rouan, Daniel, Sana, Hugues, Schaerer, Daniel, Telles, Eduardo, Trager, Scott, Tresse, Laurence, Welikala, Niraj, Zibetti, Stefano, Ziegler, Bodo, Astronomy, and bibliotheque, la.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences, [PHYS.ASTR] Physics [physics]/Astrophysics [astro-ph], Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Astrophysics - Astrophysics of Galaxies, Solar and Stellar Astrophysics (astro-ph.SR)

Abstract

This White Paper presents the scientific motivations for a multi-object spectrograph (MOS) on the European Extremely Large Telescope (E-ELT). The MOS case draws on all fields of contemporary astronomy, from extra-solar planets, to the study of the halo of the Milky Way and its satellites, and from resolved stellar populations in nearby galaxies out to observations of the earliest 'first-light' structures in the partially-reionised Universe. The material presented here results from thorough discussions within the community over the past four years, building on the past competitive studies to agree a common strategy toward realising a MOS capability on the E-ELT. The cases have been distilled to a set of common requirements which will be used to define the MOSAIC instrument, entailing two observational modes ('high multiplex' and 'high definition'). When combined with the unprecedented sensitivity of the E-ELT, MOSAIC will be the world's leading MOS facility. In analysing the requirements we also identify a high-multiplex MOS for the longer-term plans for the E-ELT, with an even greater multiplex (>1000 targets) to enable studies of large-scale structures in the high-redshift Universe. Following the green light for the construction of the E-ELT the MOS community, structured through the MOSAIC consortium, is eager to realise a MOS on the E-ELT as soon as possible. We argue that several of the most compelling cases for ELT science, in highly competitive areas of modern astronomy, demand such a capability. For example, MOS observations in the early stages of E-ELT operations will be essential for follow-up of sources identified by the James Webb Space Telescope (JWST). In particular, multi-object adaptive optics and accurate sky subtraction with fibres have both recently been demonstrated on sky, making fast-track development of MOSAIC feasible., Significantly expanded and updated version of previous ELT-MOS White Paper, so there is some textual overlap with arXiv:1303.0029

159. A new method for classifying galaxy SEDs from multiwavelength photometry

Author

Wild, Vivienne, Almaini, Omar, Cirasuolo, Michele, Dunlop, Jim, McLure, Ross, Bowler, Rebecca, Ferreira, Joao, Bradshaw, Emma, Chuter, Robert, Hartley, Will, Wild, Vivienne, Almaini, Omar, Cirasuolo, Michele, Dunlop, Jim, McLure, Ross, Bowler, Rebecca, Ferreira, Joao, Bradshaw, Emma, Chuter, Robert, and Hartley, Will

Abstract

We present a new method to classify the broad-band optical–near-infrared spectral energy distributions (SEDs) of galaxies using three shape parameters (super-colours) based on a principal component analysis of model SEDs. As well as providing a compact representation of the wide variety of SED shapes, the method allows for easy visualization of information loss and biases caused by the incomplete sampling of the rest-frame SED as a function of redshift. We apply the method to galaxies in the United Kingdom Infrared Telescope Infrared Deep Sky Survey Ultra Deep Survey with 0.9 < z < 1.2, and confirm our classifications by stacking rest-frame optical spectra for a fraction of objects in each class. As well as cleanly separating a tight red sequence from star-forming galaxies, three unusual populations are identifiable by their unique colours: very dusty star-forming galaxies with high metallicity and old mean stellar age; post-starburst galaxies which have formed _10 per cent of their mass in a recent unsustained starburst event; and metal-poor quiescent dwarf galaxies.We find that quiescent galaxies account for 45 per cent of galaxies with logM∗/M_ > 11, declining steadily to 13 per cent at logM∗/M_ = 10. The properties and mass function of the poststarburst galaxies are consistent with a scenario in which gas-rich mergers contribute to the growth of the low- and intermediate-mass range of the red sequence.

160. A new method for classifying galaxy SEDs from multiwavelength photometry

Author

Wild, Vivienne, Almaini, Omar, Cirasuolo, Michele, Dunlop, Jim, McLure, Ross, Bowler, Rebecca, Ferreira, Joao, Bradshaw, Emma, Chuter, Robert, Hartley, Will, Wild, Vivienne, Almaini, Omar, Cirasuolo, Michele, Dunlop, Jim, McLure, Ross, Bowler, Rebecca, Ferreira, Joao, Bradshaw, Emma, Chuter, Robert, and Hartley, Will

Abstract

We present a new method to classify the broad-band optical–near-infrared spectral energy distributions (SEDs) of galaxies using three shape parameters (super-colours) based on a principal component analysis of model SEDs. As well as providing a compact representation of the wide variety of SED shapes, the method allows for easy visualization of information loss and biases caused by the incomplete sampling of the rest-frame SED as a function of redshift. We apply the method to galaxies in the United Kingdom Infrared Telescope Infrared Deep Sky Survey Ultra Deep Survey with 0.9 < z < 1.2, and confirm our classifications by stacking rest-frame optical spectra for a fraction of objects in each class. As well as cleanly separating a tight red sequence from star-forming galaxies, three unusual populations are identifiable by their unique colours: very dusty star-forming galaxies with high metallicity and old mean stellar age; post-starburst galaxies which have formed _10 per cent of their mass in a recent unsustained starburst event; and metal-poor quiescent dwarf galaxies.We find that quiescent galaxies account for 45 per cent of galaxies with logM∗/M_ > 11, declining steadily to 13 per cent at logM∗/M_ = 10. The properties and mass function of the poststarburst galaxies are consistent with a scenario in which gas-rich mergers contribute to the growth of the low- and intermediate-mass range of the red sequence.

161. A new method for classifying galaxy SEDs from multiwavelength photometry

Author

Wild, Vivienne, Almaini, Omar, Cirasuolo, Michele, Dunlop, Jim, McLure, Ross, Bowler, Rebecca, Ferreira, Joao, Bradshaw, Emma, Chuter, Robert, Hartley, Will, Wild, Vivienne, Almaini, Omar, Cirasuolo, Michele, Dunlop, Jim, McLure, Ross, Bowler, Rebecca, Ferreira, Joao, Bradshaw, Emma, Chuter, Robert, and Hartley, Will

Abstract

We present a new method to classify the broad-band optical–near-infrared spectral energy distributions (SEDs) of galaxies using three shape parameters (super-colours) based on a principal component analysis of model SEDs. As well as providing a compact representation of the wide variety of SED shapes, the method allows for easy visualization of information loss and biases caused by the incomplete sampling of the rest-frame SED as a function of redshift. We apply the method to galaxies in the United Kingdom Infrared Telescope Infrared Deep Sky Survey Ultra Deep Survey with 0.9 < z < 1.2, and confirm our classifications by stacking rest-frame optical spectra for a fraction of objects in each class. As well as cleanly separating a tight red sequence from star-forming galaxies, three unusual populations are identifiable by their unique colours: very dusty star-forming galaxies with high metallicity and old mean stellar age; post-starburst galaxies which have formed _10 per cent of their mass in a recent unsustained starburst event; and metal-poor quiescent dwarf galaxies.We find that quiescent galaxies account for 45 per cent of galaxies with logM∗/M_ > 11, declining steadily to 13 per cent at logM∗/M_ = 10. The properties and mass function of the poststarburst galaxies are consistent with a scenario in which gas-rich mergers contribute to the growth of the low- and intermediate-mass range of the red sequence.

162. A new method for classifying galaxy SEDs from multiwavelength photometry

Author

Wild, Vivienne, Almaini, Omar, Cirasuolo, Michele, Dunlop, Jim, McLure, Ross, Bowler, Rebecca, Ferreira, Joao, Bradshaw, Emma, Chuter, Robert, Hartley, Will, Wild, Vivienne, Almaini, Omar, Cirasuolo, Michele, Dunlop, Jim, McLure, Ross, Bowler, Rebecca, Ferreira, Joao, Bradshaw, Emma, Chuter, Robert, and Hartley, Will

Abstract

We present a new method to classify the broad-band optical–near-infrared spectral energy distributions (SEDs) of galaxies using three shape parameters (super-colours) based on a principal component analysis of model SEDs. As well as providing a compact representation of the wide variety of SED shapes, the method allows for easy visualization of information loss and biases caused by the incomplete sampling of the rest-frame SED as a function of redshift. We apply the method to galaxies in the United Kingdom Infrared Telescope Infrared Deep Sky Survey Ultra Deep Survey with 0.9 < z < 1.2, and confirm our classifications by stacking rest-frame optical spectra for a fraction of objects in each class. As well as cleanly separating a tight red sequence from star-forming galaxies, three unusual populations are identifiable by their unique colours: very dusty star-forming galaxies with high metallicity and old mean stellar age; post-starburst galaxies which have formed _10 per cent of their mass in a recent unsustained starburst event; and metal-poor quiescent dwarf galaxies.We find that quiescent galaxies account for 45 per cent of galaxies with logM∗/M_ > 11, declining steadily to 13 per cent at logM∗/M_ = 10. The properties and mass function of the poststarburst galaxies are consistent with a scenario in which gas-rich mergers contribute to the growth of the low- and intermediate-mass range of the red sequence.

163. The ESO's ELT construction status

Author

Marshall, Heather K., Spyromilio, Jason, Tamai, Roberto, Koehler, Bertrand, Cirasuolo, Michele, Biancat-Marchet, Fabio, Tuti, Mauro, and Gonzáles Herrera, Juan Carlos

Published

2018

164. Evolution of emission line properties and metallicities of star-forming galaxies up to z ~ 3

Author

Cullen, Fergus, Cirasuolo, Michele, McLure, Ross, and Dunlop, James

Subjects

523.1, galaxy formation, cosmic star-formation, emissions, high redshifts, oxygen level, metallicity measurement

Abstract

Until recently, obtaining rest-frame optical spectra of galaxies at z > 1 was a time consuming and challenging observation due to the difficult nature of near-infrared (near-IR) spectroscopy. However, with the advent of second generation ground-based near-IR spectrographs (e.g. KMOS, MOSFIRE), and the new low resolution near-IR grisms on the Hubble Space Telescope (HST), we have entered a new era in the study of high redshift galaxies. This thesis explores the physical properties of star-forming galaxies in the redshift range 1 < z < 3 by utilising a custom reduction of the 3D-HST near-IR grism spectroscopic survey. One of the most important observational constraints on the evolution of galaxies is the mass-metallicity relation (MZR), which is sensitive to both the star-formation history and various inflow/outflow processes. I use the 3D-HST spectra to provide a new constraint on the MZR at 2:0 < z < 2:3, and moreover measure the O/H abundance directly from the oxygen and hydrogen emission lines ([OII], [OIII] and Hβ) as opposed to the more common method at high redshift of inferring O/H from the N/H ratio (via [NII] and Hα). I show that the traditional form of the MZR is recovered from the 3D-HST data, with metallicity increasing with the stellar mass of a galaxy. However, the absolute metallicity values I derive are inconsistent with previous N/H-based measurements of metallicity at these redshifts. Moreover, I show that the 3D-HST data is inconsistent with the `fundamental metallicity relation' (FMR), and that, contrary to previous claims, this local Universe relation may not hold out to z & 2. To investigate this metallicity discrepancy further, I measure the evolution of the [OIII]/Hβ nebular emission line ratio in the 3D-HST spectra over the redshift range 1:3 < z < 2:3. I compare this observed line ratio evolution with state-of-the- art theoretical models which take into account the independent evolution of the ionization parameter, electron density and metallicity of star-forming regions with redshift. The homogeneous 3D-HST dataset allows me to perform a consistent analysis of this evolution which takes into account line luminosity selection effects. I show that, according to models, the observed [OIII]/Hβ evolution cannot be accounted for by pure metallicity evolution. Instead I am able to infer that the line ratio evolution is more consistent with, at the very least, an evolution to stronger ionizing conditions at high redshift, and perhaps even denser star-forming regions. I explore how this result can also explain the observed discrepancy between high redshift metallicity measurements. In light of this finding, I revisit the MZR at z >~ 2 and employ a purely theoretical approach to inferring metallicities from nebular lines, which is able to account for an evolution in ionization conditions. I then use a selection of galaxies from the local Universe, which mimic the properties of high redshift galaxies, to derive a more robust ionization sensitive, conversion, between N/H and O/H. With this new conversion which I am able to bring the previous inconsistent metallicity measurements at z >~ 2 back into agreement. Finally, I am able to show that, in this new formalism, the metallicity evolution between z = 2 and z = 3 is perhaps not as large as previously reported. To conclude I discuss ongoing work as part of the KMOS Deep Survey (KDS) being undertaken with the near near-IR Multi-Object Spectrograph KMOS on the VLT. I describe the observations and data reduction that has been completed to date and describe how this instrument will allow me to extend the work presented in this thesis to z > 3. I also introduce FIGS, a new HST near-IR grism survey seeking to spectroscopically identify galaxies at 5:5 < z < 8:5 and work I have begun in exploring this dataset.

Published

2015

165. Massive galaxies at 1 < z < 3

Author

Bruce, Victoria Ashley, Cirasuolo, Michele, Mclure, Ross, and Dunlop, James

Subjects

523.1, galaxy evolution

Abstract

This thesis explores the evolution of massive galaxies (M * > 1011M ʘ) by conducting the largest multiple-component Sersic light-profile fitting study to date of the rest-frame optical and ultra-violet morphologies of galaxies at redshifts 1 < z < 3. Despite many of the recent advances in galaxy formation and evolution models, the physical processes which are responsible for driving morphological transformations and star-formation quenching remain unclear. By undertaking a detailed study of the individual bulge and disk components of these massive systems, the work presented in this thesis addresses these outstanding issues by exploring not only how the sizes of the individual components evolve with redshift, but also how the overall bulge and disk fractions evolve, and how these trends are connected to star-formation quenching of the separate components. In order to perform this analysis, I have combined the latest high-resolution near-infrared HST WFC3/IR and ACS imaging provided by the CANDELS survey in the UDS and COSMOS fields and have presented a robust procedure for morphological multiple-component Sersic light-pro le model fitting across the 0:6μ m to 1:6μ m wavelength range sampled by CANDELS. This procedure is discussed in depth along with the tests I have undertaken to assess its reliability and accuracy. This approach has enabled me to generate separate bulge and disk component model photometry, allowing me to conduct individual component SED fitting in order to determine decomposed stellar-mass and star-formation rate estimates for the separate bulge and disk components. The results presented in this work reveal that the sizes of the bulge and disk components lie both on and below the local size-mass relations, confirming that the size evolution required by the previously reported compact sizes of high-redshift galaxies extends to both galaxy components. However, I find evidence that the bulge components display a stronger size evolution with redshift than the disks as, at 1 < z < 3, the bulges are a median factor of 3:09 ± 0:2 times smaller than similarly massive local early-type galaxies, whereas the disks are a median factor of 1:77 ± 0:1 times smaller than similarly massive local late-type galaxies. By including decomposed star-formation rates for the individual bulge and disk components, this work also reveals that while the growth of individual components through, for example, inside-out processes such as minor merging, are consistent with the size evolution of these systems, the addition of larger newly quenched systems to the galaxy population, for the disk components at least, may also play an important role in the observed size evolution of massive galaxies. By exploring the evolution of the bulge and disk-dominated fractions with redshift, I find that 1 < z < 3 marks a key transition era in cosmic time where these most massive galaxies appear to be undergoing dramatic structural transformations. Within this redshift range there is a decline in the population of disk-dominated galaxies and a gradual emergence of increasingly bulge-dominated systems. However, despite the rise of S0-type galaxies, even by z = 1 I do not yet find a significant fraction of "pure" bulges comparable to the giant ellipticals which comprise the majority of the local massive galaxy population. In addition to studying how the overall bulge and disk dominated fractions evolve with redshift, by incorporating the star-formation rate and stellar-mass estimates for the separate components and imposing new, highly conservative criteria, I con firm that a significant fraction of passive galaxies are disk-dominated (18± 5%) and a significant fraction of star-forming galaxies are bulge-dominated (11 ±4%). The presence of passive disks and star-forming bulges has interesting implications for the models of galaxy evolution as they suggest that the processes which quench star-formation may be distinct from the mechanisms which cause morphological transformations. Finally, the detailed morphological analysis presented in this work has also allowed me to explore the axial ratio distributions of these most massive high-redshift galaxies, which provides additional insight into the structure of the passive and star-forming bulge and disk-dominated sub-populations. Whilst the overall axial ratio distributions for star-forming disks are peaked, I find tentative evidence that the largest and most active star-forming disks are flatter. I have also been able to further demonstrate that by selecting the most active star-forming disks and comparing to extreme star-forming (sub-)mm selected galaxies, the axial ratio distributions of the two samples appear to be comparably flat, thus reconciling the observed structures of these populations.

Published

2014

166. Massive galaxies at high redshift

Author

Pearce, Henry James, McLure, Ross., Cirasuolo, Michele., and Dunlop, James

Subjects

520, galaxy evolution, high-redshift spectroscopic dataset, stellar population models, spectrophotometric modelling, galaxy size-mass relation, star-formation rate

Abstract

A unique K-band selected high-redshift spectroscopic dataset (UDSz) is exploited to gain further understanding of galaxy evolution at z > 1. Acquired as part of an ESO Large Programme, this thesis presents the reduction and analysis of a sample of ∼ 450 deep optical spectra of a random 1 in 6 sample of the KAB < 23, z > 1 galaxy population. Based on the final reduced dataset, spectrophotometric modelling of the optical spectra and multi-wavelength photometry available for each galaxy is performed using a combination of single and dual component stellar population models. The stellarmass and age estimates provided by the spectrophotometric modelling are exploited throughout the rest of the thesis to investigate the evolution of massive galaxies at z > 1. Focusing on a K-band bright (K < 21.5) sub-sample in the redshift range 1.3 < z < 1.5 the galaxy size-mass relation has been studied in detailed. In agreement with some previous studies it is found that massive, old, early-type galaxies (ETGs) have characteristic radii a factor ~- 1.5 − 3.0 smaller than their local counterparts at a given stellar-mass. Due to the potential errors in spectrophotometric estimates of the stellarmasses at high redshift velocity dispersion measurements are derived for a sub-sample of massive ETGs at z > 1.3 in order to calculate dynamical mass estimates. To date, only a handful of objects at z > 1.3 have individual velocity dispersion estimates in the literature. Here the largest single sample (13 objects) of velocity dispersion measurements at high redshift is presented. The results for the sub-sample of objects with dynamical mass estimates confirm the results based on stellar mass estimates that high redshift massive systems are more compact than their local counterparts. The fraction of K-band bright objects at high redshift that are passively evolving is calculated with specific star-formation rates from the UV rest-frame continuum, [OII] emission and 24μm data. It is concluded that ∼ 58 ± 10% of the K < 21.5, 1.3 < z < 1.5 galaxy population is passively evolving. Various photometric techniques for separating star-forming and passively evolving galaxies are assessed by exploiting the accurate spectral types derived for the UDSz spectroscopic sample. Popular highredshift selection techniques are shown to fail to effectively select complete samples of passive objects with low levels of contamination. Using detailed information available for the UDSz dataset, various techniques are optimised and then used to estimate the passive fraction from the full UDS photometric catalog. The passive fraction results from the full photometric catalog are found to agree well with the results derived from the UDSz sample. With the Visible and Infrared Survey Telescope for Astronomy (VISTA) now starting to produce data, the opportunity has been taken to develop high-redshift galaxy population dividers based on the VISTA filters. Using the first data release from the VISTA Deep Extragalactic Observations (VIDEO) survey (VVDS D1 field), the passive fractions of K-band limited samples have been estimated to compare with results derived in the UDS. Within the errors the passive fraction estimates in the UDS and VISTA VVDS D1 field are found to agree reasonably well. Finally, composite spectra are used to study the evolution of various different galaxy sub-samples as a function of redshift, age, stellar-mass and specific star-formation rate. This work produces an remarkably clean result, showing that the massive, absolute Kband bright, passively evolving ETGs are always the oldest population, with ages close to the age of the Universe at z ∼ 1.4. In contrast, the late-type, low-mass, star-forming galaxies are always found to be much younger systems. This result strongly supports the downsizing scenario, in which more massive systems complete their stellar-mass assembly before lower-mass counterparts.

Published

2012

167. The star-formation history of massive galaxies

Author

Schael, Anita M., Dunlop, James., McLure, Ross., and Cirasuolo, Michele

Subjects

523.8, Astronomy, Galaxy formation, Star formation history

Abstract

This thesis presents multi-frequency data, galaxy identifications, estimated redshifts, and derived physical properties for the sub-millimetre source sample produced by the SCUBA HAlf Degree Extragalactic Survey (SHADES). SHADES is the largest, complete, sub-millimetre survey undertaken to date, and the aim of this work is to exploit this survey to study the evolution of sub-mm selected galaxies at high redshift, explore their possible connectionwith localmassive ellipticals, and to test current models of galaxy formation. The SHADES sample was selected from 850 micron images made with the submillimetre camera SCUBA at the James Clerk Maxwell Telescope. These submillimetre maps cover a total area of 720 arcmin2 split between two well-studied extra-galactic survey fields, the Lockman Hole East and the Subaru/XMMNewton Deep Field (SXDF). The resulting sample of 120 sub-millimetre sources is the focus of this thesis. Here the wealth of information provided by deep radio, optical, near-infrared and mid-infrared imaging of the two SHADES fields is exploited to complete the identification of the SHADES sample, and then to derive a robust redshift estimate for every sub-millimetre source. Where possible this is achieved from the optical+ infrared photometry using a new two-component redshift estimation code developed specifically to deal with starbursting galaxies with potentially highly stochastic star-formation histories. The effectiveness of this code is demonstrated via comparison with the small subset of SHADES source which possess robust spectroscopic redshifts. For those galaxies which are too faint for effective redshift constraints to be provided by the existing optical+infrared photometry, the information on the long-wavelength spectral energy distribution provided by the radio+submm photometry is utilised to provide cruder constraints or limits on redshift. The result is the first complete and unbiased estimate of the redshift distribution of the bright extragalactic sub-millimetre galaxy population. It is found that the brightest sub-mm sources are confined to the redshift range 2 < z < 4, while more moderate luminosity sources span the full range of redshift out to z ∼ 5. The fits to themulti-frequency photometry provided by the redshift estimation technique are also used to derive estimates of the stellar mass, and star-formation history of each SHADES galaxy. The average derived stellar mass is ∼ 3 × 1011 M⊙ and it is found that the violent starburst powering the sub-millimetre emission typically contributes less than 10% of the stellar mass of the galaxy which has been assembled prior to the “current” starburst event. The distributions of redshift, stellar mass, and star-burst ages are compared with the predictions of a range of galaxy models, including the suite of models originally used to motivate the SHADES survey in van Kampen et al. (2005), and themost recent incarnation of the Durhamsemi-analytic galaxy formationmodels described by Swinbank et al. (2008). It is found that the redshift distribution and sub-mmflux versus redshift for bright sub-mmgalaxies can be reproduced best by one of the van Kampen models, which is based on semi-analytic modelling with a Chabrier IMF. We can rule out the non-semi-analytic prediction models and the Durham semi-analytic model with a top-heavy IMF. However the stellar masses are systematically underpredicted by all of the models. Either the stellar masses derived from the SHADES data have been systematically over-estimated, or the models need to be modified (perhaps by the inclusion of AGN feedback) to allow larger galaxy masses to assembled prior to z ∼ 2. Finally, it is demonstrated that themass in place prior to the observed starburst cannot have been produced by an analogous super-burst at higher redshift, but rather requires to have been assembledmore gradually over a timescale of ∼ 1−2 Gyr. It is thus concluded thatmassive galaxies undergo theirmost violent phase of star formation at redshifts 2 < z < 4, but that the enormous starbursts which lead to detection in current sub-millimetre surveys can only take place in the potential well provided by an already massive galaxy. This supports a scenario in which bright sub-millimetre galaxies are indeed the progenitors of the massive elliptical galaxies found in the local Universe.

Published

2009

168. DISCOVERY OF A GIANT Ly{alpha} EMITTER NEAR THE REIONIZATION EPOCH

Author

Cirasuolo, Michele [SUPA Institute for Astronomy, University of Edinburgh, Royal Observatory, Edinburgh EH9 3HJ (United Kingdom)]

Published

2009

169. Star formation at z= 1.47 from HiZELS: an H α+[O ii] double-blind study★.

Author

Sobral, David, Best, Philip N., Matsuda, Yuichi, Smail, Ian, Geach, James E., and Cirasuolo, Michele

Subjects

*STAR formation, *BLIND experiment, *INFRARED telescopes, *STELLAR luminosity function, *COMPARATIVE studies, *STELLAR mass

Abstract

ABSTRACT This paper presents the results from the first wide and deep dual narrow-band survey to select Hα and [O ii] line emitters at z= 1.47 ± 0.02, exploiting synergies between the United Kingdom Infrared Telescope and the Subaru telescope by using matched narrow-band filters in the H and z′ bands. The Hα survey at z= 1.47 reaches a 3σ flux limit of FHα≈ 7 × 10−17 erg s−1 cm−2 (corresponding to a limiting star formation rate (SFR) in Hα of ≈7 M⊙ yr−1) and detects ≈200 Hα emitters over 0.7 deg2, while the much deeper [O ii] survey reaches an effective flux of ≈7 × 10−18 erg s−1 cm−2 (SFR in [O ii] of ∼1 M⊙ yr−1), detecting ≈1400 z= 1.47 [O ii] emitters in a matched comoving volume of ∼2.5 × 105 Mpc3. The combined survey results in the identification of 190 simultaneous Hα and [O ii] emitters at z= 1.47. Hα and [O ii] luminosity functions are derived and both are shown to evolve significantly from z∼ 0 in a consistent way. The SFR density of the Universe at z= 1.47 is evaluated, with the Hα analysis yielding ρSFR= 0.16 ± 0.05 M⊙ yr−1 Mpc−3 and the [O ii] analysis ρSFR= 0.17 ± 0.04 M⊙ yr−1 Mpc−3. The measurements are combined with other studies, providing a self-consistent measurement of the star formation history of the Universe over the last ∼11 Gyr. By using a large comparison sample at z∼ 0.1, derived from the Sloan Digital Sky Survey (SDSS), [O ii]/Hα line ratios are calibrated as probes of dust extinction. Hα emitters at z∼ 1.47 show on average AHα≈ 1 mag, the same as found by SDSS in the local Universe. It is shown that although dust extinction correlates with SFR, the relation evolves by about ∼0.5 mag from z∼ 1.5 to ∼0, with local relations overpredicting the dust extinction corrections at high z by that amount. Stellar mass is found to be a much more fundamental extinction predictor, with the same relation between mass and dust extinction being valid at both z∼ 0 and ∼1.5, at least for low and moderate stellar masses. The evolution in the extinction-SFR relation is therefore interpreted as being due to the evolution in median specific SFRs over cosmic time. Dust extinction corrections as a function of optical colours are also derived and shown to be broadly valid at both z∼ 0 and ∼1.5, offering simpler mechanisms for estimating extinction in moderately star-forming systems over the last ∼9 Gyr. [ABSTRACT FROM AUTHOR]

Published

2012

170. The Star-Formation History of Massive Galaxies

Author

Schael, Anita M, Dunlop, James, McLure, Ross, and Cirasuolo, Michele

Subjects

Galaxy formation, Astronomy, Star formation history, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

This thesis presents multi-frequency data, galaxy identifications, estimated redshifts, and derived physical properties for the sub-millimetre source sample produced by the SCUBA HAlf Degree Extragalactic Survey (SHADES). SHADES is the largest, complete, sub-millimetre survey undertaken to date, and the aim of this work is to exploit this survey to study the evolution of sub-mm selected galaxies at high redshift, explore their possible connectionwith localmassive ellipticals, and to test current models of galaxy formation. The SHADES sample was selected from 850 micron images made with the submillimetre camera SCUBA at the James Clerk Maxwell Telescope. These submillimetre maps cover a total area of 720 arcmin2 split between two well-studied extra-galactic survey fields, the Lockman Hole East and the Subaru/XMMNewton Deep Field (SXDF). The resulting sample of 120 sub-millimetre sources is the focus of this thesis. Here the wealth of information provided by deep radio, optical, near-infrared and mid-infrared imaging of the two SHADES fields is exploited to complete the identification of the SHADES sample, and then to derive a robust redshift estimate for every sub-millimetre source. Where possible this is achieved from the optical+ infrared photometry using a new two-component redshift estimation code developed specifically to deal with starbursting galaxies with potentially highly stochastic star-formation histories. The effectiveness of this code is demonstrated via comparison with the small subset of SHADES source which possess robust spectroscopic redshifts. For those galaxies which are too faint for effective redshift constraints to be provided by the existing optical+infrared photometry, the information on the long-wavelength spectral energy distribution provided by the radio+submm photometry is utilised to provide cruder constraints or limits on redshift. The result is the first complete and unbiased estimate of the redshift distribution of the bright extragalactic sub-millimetre galaxy population. It is found that the brightest sub-mm sources are confined to the redshift range 2 < z < 4, while more moderate luminosity sources span the full range of redshift out to z ∼ 5. The fits to themulti-frequency photometry provided by the redshift estimation technique are also used to derive estimates of the stellar mass, and star-formation history of each SHADES galaxy. The average derived stellar mass is ∼ 3 × 1011 M⊙ and it is found that the violent starburst powering the sub-millimetre emission typically contributes less than 10% of the stellar mass of the galaxy which has been assembled prior to the “current” starburst event. The distributions of redshift, stellar mass, and star-burst ages are compared with the predictions of a range of galaxy models, including the suite of models originally used to motivate the SHADES survey in van Kampen et al. (2005), and themost recent incarnation of the Durhamsemi-analytic galaxy formationmodels described by Swinbank et al. (2008). It is found that the redshift distribution and sub-mmflux versus redshift for bright sub-mmgalaxies can be reproduced best by one of the van Kampen models, which is based on semi-analytic modelling with a Chabrier IMF. We can rule out the non-semi-analytic prediction models and the Durham semi-analytic model with a top-heavy IMF. However the stellar masses are systematically underpredicted by all of the models. Either the stellar masses derived from the SHADES data have been systematically over-estimated, or the models need to be modified (perhaps by the inclusion of AGN feedback) to allow larger galaxy masses to assembled prior to z ∼ 2. Finally, it is demonstrated that themass in place prior to the observed starburst cannot have been produced by an analogous super-burst at higher redshift, but rather requires to have been assembledmore gradually over a timescale of ∼ 1−2 Gyr. It is thus concluded thatmassive galaxies undergo theirmost violent phase of star formation at redshifts 2 < z < 4, but that the enormous starbursts which lead to detection in current sub-millimetre surveys can only take place in the potential well provided by an already massive galaxy. This supports a scenario in which bright sub-millimetre galaxies are indeed the progenitors of the massive elliptical galaxies found in the local Universe.

Published

2009