Large‐scale outflows from z≃ 0.7 starburst galaxies identified via ultrastrong Mg ii quasar absorption lines
Identifieur interne : 006400 ( Main/Exploration ); précédent : 006399; suivant : 006401Large‐scale outflows from z≃ 0.7 starburst galaxies identified via ultrastrong Mg ii quasar absorption lines
Auteurs : Daniel B. Nestor [Royaume-Uni, États-Unis] ; Benjamin D. Johnson [Royaume-Uni] ; Vivienne Wild [France] ; Brice Ménard [Canada] ; David A. Turnshek [États-Unis] ; Sandhya Rao [États-Unis] ; Max Pettini [Royaume-Uni, Australie]Source :
- Monthly Notices of the Royal Astronomical Society [ 0035-8711 ] ; 2011-04-11.
Descripteurs français
- Pascal (Inist)
English descriptors
- KwdEn :
- Absolute magnitudes, Absorber, Absorption, Absorption features, Absorption kinematics, Absorption line, Absorption redshift, Absorption systems, Arcsec, Astronomical catalogues, Average absorption, Balmer, Balmer absorption lines, Balmer absorption strengths, Bright galaxies, Charlot, Charlot fall, Colours, Drive winds, Eld, Emission line galaxies, Emission lines, Foreground galaxies, Formation rate, Galactic, Galactic wind, Galactic wind hosts, Galactic winds, Galaxy, Galaxy evolution, Gmos, Gmos image, H-beta lines, High ssfrs, Impact parameter, Impact parameters, Intergalactic matter, Jets, Kinematics, Lower bound, Luminosity, Mass estimates, Metallicities, Mnras, Models, Monthly notices, Nestor, Ntrq, Ntrq sample, Opaque component, Pettini, Photometry, Quasar, Quasars, Quider, Red shift, Redshift, Scenario, Sdss, Sdss spectrum, Sfrs, Shapley, Sightline, Similar redshift, Spectroscopic study, Star formation, Star formation episodes, Starburst, Starburst galaxies, Starbursts, Steidel, Stellar, Stellar mass, Stellar masses, Stellar populations, Strongest systems, Such systems, Telluric absorption, Tremonti, Tting, Turnshek, Ultrastrong, Usmg, Uxes, Weaker systems, Zabs, Zabs galaxies, Zgal.
- Teeft :
- Absolute magnitudes, Absorber, Absorption, Absorption features, Absorption kinematics, Absorption redshift, Absorption systems, Arcsec, Average absorption, Balmer, Balmer absorption lines, Balmer absorption strengths, Bright galaxies, Charlot, Charlot fall, Colours, Drive winds, Eld, Emission lines, Foreground galaxies, Galactic, Galactic wind, Galactic wind hosts, Galactic winds, Galaxy, Gmos, Gmos image, High ssfrs, Impact parameter, Impact parameters, Kinematics, Luminosity, Mass estimates, Metallicities, Mnras, Monthly notices, Nestor, Ntrq, Ntrq sample, Opaque component, Pettini, Photometry, Quasar, Quider, Redshift, Scenario, Sdss, Sdss spectrum, Sfrs, Shapley, Sightline, Similar redshift, Spectroscopic study, Star formation, Star formation episodes, Starburst, Starbursts, Steidel, Stellar, Stellar mass, Stellar masses, Stellar populations, Strongest systems, Such systems, Telluric absorption, Tremonti, Tting, Turnshek, Ultrastrong, Usmg, Uxes, Weaker systems, Zabs, Zabs galaxies, Zgal.
Abstract
Star formation driven outflows are a critically important phenomenon in theoretical treatments of galaxy evolution, despite the limited ability of observational studies to trace galactic winds across cosmological time‐scales. It has been suggested that the strongest Mg ii absorption‐line systems detected in the spectra of background quasars might arise in outflows from foreground galaxies. If confirmed, such ‘ultrastrong’ Mg ii (USMg ii) absorbers would represent a method to identify significant numbers of galactic winds over a huge baseline in cosmic time, in a manner independent of the luminous properties of the galaxy. To this end, we present the first detailed imaging and spectroscopic study of the fields of two USMg ii absorber systems culled from a statistical absorber catalogue, with the goal of understanding the physical processes leading to the large velocity spreads that define such systems. Each field contains two bright emission‐line galaxies at similar redshift (Δv≲ 300 km s−1) to that of the absorption. Lower limits on their instantaneous star formation rates (SFRs) from the observed [O ii] and Hβ line fluxes, and stellar masses from spectral template fitting indicate specific SFRs among the highest for their masses at these redshifts. Additionally, their 4000‐Å break and Balmer absorption strengths imply they have undergone recent (∼0.01–1 Gyr) starbursts. The concomitant presence of two rare phenomena – starbursts and USMg ii absorbers – strongly implies a causal connection. We consider these data and USMg ii absorbers in general in the context of various popular models, and conclude that galactic outflows are generally necessary to account for the velocity extent of the absorption. We favour starburst‐driven outflows over tidally stripped gas from a major interaction, which triggered the starburst as the energy source for the majority of systems. Finally, we discuss the implications of these results and speculate on the overall contribution of such systems to the global SFR density at z≃ 0.7.
Url:
DOI: 10.1111/j.1365-2966.2010.17865.x
Affiliations:
- Australie, Canada, France, Royaume-Uni, États-Unis
- Angleterre, Angleterre de l'Est, Californie, Ontario, Pennsylvanie, Île-de-France
- Cambridge, Paris, Pittsburgh, Toronto
- Université de Cambridge, Université de Pittsburgh, Université de Toronto
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unit="page" from="1559">1559</biblScope><biblScope unit="page" to="1572">1572</biblScope><biblScope unit="page-count">14</biblScope><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2011-04-11">2011-04-11</date></imprint><idno type="ISSN">0035-8711</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0035-8711</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Absolute magnitudes</term><term>Absorber</term><term>Absorption</term><term>Absorption features</term><term>Absorption kinematics</term><term>Absorption line</term><term>Absorption redshift</term><term>Absorption systems</term><term>Arcsec</term><term>Astronomical catalogues</term><term>Average absorption</term><term>Balmer</term><term>Balmer absorption lines</term><term>Balmer absorption strengths</term><term>Bright galaxies</term><term>Charlot</term><term>Charlot fall</term><term>Colours</term><term>Drive winds</term><term>Eld</term><term>Emission line galaxies</term><term>Emission lines</term><term>Foreground galaxies</term><term>Formation rate</term><term>Galactic</term><term>Galactic wind</term><term>Galactic wind hosts</term><term>Galactic winds</term><term>Galaxy</term><term>Galaxy evolution</term><term>Gmos</term><term>Gmos image</term><term>H-beta lines</term><term>High ssfrs</term><term>Impact parameter</term><term>Impact parameters</term><term>Intergalactic matter</term><term>Jets</term><term>Kinematics</term><term>Lower bound</term><term>Luminosity</term><term>Mass estimates</term><term>Metallicities</term><term>Mnras</term><term>Models</term><term>Monthly notices</term><term>Nestor</term><term>Ntrq</term><term>Ntrq sample</term><term>Opaque component</term><term>Pettini</term><term>Photometry</term><term>Quasar</term><term>Quasars</term><term>Quider</term><term>Red shift</term><term>Redshift</term><term>Scenario</term><term>Sdss</term><term>Sdss spectrum</term><term>Sfrs</term><term>Shapley</term><term>Sightline</term><term>Similar redshift</term><term>Spectroscopic study</term><term>Star formation</term><term>Star formation episodes</term><term>Starburst</term><term>Starburst galaxies</term><term>Starbursts</term><term>Steidel</term><term>Stellar</term><term>Stellar mass</term><term>Stellar masses</term><term>Stellar populations</term><term>Strongest systems</term><term>Such systems</term><term>Telluric absorption</term><term>Tremonti</term><term>Tting</term><term>Turnshek</term><term>Ultrastrong</term><term>Usmg</term><term>Uxes</term><term>Weaker systems</term><term>Zabs</term><term>Zabs galaxies</term><term>Zgal</term></keywords><keywords scheme="Pascal" xml:lang="fr"><term>Borne inférieure</term><term>Catalogue astronomique</term><term>Déplacement vers le rouge</term><term>Evolution galaxies</term><term>Formation stellaire</term><term>Galaxies raies émission</term><term>Galaxies à flambée</term><term>Jet</term><term>Masse stellaire</term><term>Matière intergalactique</term><term>Modèle</term><term>Quasar</term><term>Raie H bêta</term><term>Raie absorption</term><term>Taux formation</term><term>Vent galactique</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Absolute magnitudes</term><term>Absorber</term><term>Absorption</term><term>Absorption features</term><term>Absorption kinematics</term><term>Absorption redshift</term><term>Absorption systems</term><term>Arcsec</term><term>Average absorption</term><term>Balmer</term><term>Balmer absorption lines</term><term>Balmer absorption strengths</term><term>Bright galaxies</term><term>Charlot</term><term>Charlot fall</term><term>Colours</term><term>Drive winds</term><term>Eld</term><term>Emission lines</term><term>Foreground galaxies</term><term>Galactic</term><term>Galactic wind</term><term>Galactic wind hosts</term><term>Galactic winds</term><term>Galaxy</term><term>Gmos</term><term>Gmos image</term><term>High ssfrs</term><term>Impact parameter</term><term>Impact parameters</term><term>Kinematics</term><term>Luminosity</term><term>Mass estimates</term><term>Metallicities</term><term>Mnras</term><term>Monthly notices</term><term>Nestor</term><term>Ntrq</term><term>Ntrq sample</term><term>Opaque component</term><term>Pettini</term><term>Photometry</term><term>Quasar</term><term>Quider</term><term>Redshift</term><term>Scenario</term><term>Sdss</term><term>Sdss spectrum</term><term>Sfrs</term><term>Shapley</term><term>Sightline</term><term>Similar redshift</term><term>Spectroscopic study</term><term>Star formation</term><term>Star formation episodes</term><term>Starburst</term><term>Starbursts</term><term>Steidel</term><term>Stellar</term><term>Stellar mass</term><term>Stellar masses</term><term>Stellar populations</term><term>Strongest systems</term><term>Such systems</term><term>Telluric absorption</term><term>Tremonti</term><term>Tting</term><term>Turnshek</term><term>Ultrastrong</term><term>Usmg</term><term>Uxes</term><term>Weaker systems</term><term>Zabs</term><term>Zabs galaxies</term><term>Zgal</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Star formation driven outflows are a critically important phenomenon in theoretical treatments of galaxy evolution, despite the limited ability of observational studies to trace galactic winds across cosmological time‐scales. It has been suggested that the strongest Mg ii absorption‐line systems detected in the spectra of background quasars might arise in outflows from foreground galaxies. If confirmed, such ‘ultrastrong’ Mg ii (USMg ii) absorbers would represent a method to identify significant numbers of galactic winds over a huge baseline in cosmic time, in a manner independent of the luminous properties of the galaxy. To this end, we present the first detailed imaging and spectroscopic study of the fields of two USMg ii absorber systems culled from a statistical absorber catalogue, with the goal of understanding the physical processes leading to the large velocity spreads that define such systems. Each field contains two bright emission‐line galaxies at similar redshift (Δv≲ 300 km s−1) to that of the absorption. Lower limits on their instantaneous star formation rates (SFRs) from the observed [O ii] and Hβ line fluxes, and stellar masses from spectral template fitting indicate specific SFRs among the highest for their masses at these redshifts. Additionally, their 4000‐Å break and Balmer absorption strengths imply they have undergone recent (∼0.01–1 Gyr) starbursts. The concomitant presence of two rare phenomena – starbursts and USMg ii absorbers – strongly implies a causal connection. We consider these data and USMg ii absorbers in general in the context of various popular models, and conclude that galactic outflows are generally necessary to account for the velocity extent of the absorption. We favour starburst‐driven outflows over tidally stripped gas from a major interaction, which triggered the starburst as the energy source for the majority of systems. Finally, we discuss the implications of these results and speculate on the overall contribution of such systems to the global SFR density at z≃ 0.7.</div></front></TEI><affiliations><list><country><li>Australie</li><li>Canada</li><li>France</li><li>Royaume-Uni</li><li>États-Unis</li></country><region><li>Angleterre</li><li>Angleterre de l'Est</li><li>Californie</li><li>Ontario</li><li>Pennsylvanie</li><li>Île-de-France</li></region><settlement><li>Cambridge</li><li>Paris</li><li>Pittsburgh</li><li>Toronto</li></settlement><orgName><li>Université de Cambridge</li><li>Université de Pittsburgh</li><li>Université de Toronto</li></orgName></list><tree><country name="Royaume-Uni"><region name="Angleterre"><name sortKey="Nestor, Daniel B" sort="Nestor, Daniel B" uniqKey="Nestor D" first="Daniel B." last="Nestor">Daniel B. Nestor</name></region><name sortKey="Johnson, Benjamin D" sort="Johnson, Benjamin D" uniqKey="Johnson B" first="Benjamin D." last="Johnson">Benjamin D. Johnson</name><name sortKey="Pettini, Max" sort="Pettini, Max" uniqKey="Pettini M" first="Max" last="Pettini">Max Pettini</name></country><country name="États-Unis"><region name="Californie"><name sortKey="Nestor, Daniel B" sort="Nestor, Daniel B" uniqKey="Nestor D" first="Daniel B." last="Nestor">Daniel B. Nestor</name></region><name sortKey="Nestor, Daniel B" sort="Nestor, Daniel B" uniqKey="Nestor D" first="Daniel B." last="Nestor">Daniel B. Nestor</name><name sortKey="Rao, Sandhya" sort="Rao, Sandhya" uniqKey="Rao S" first="Sandhya" last="Rao">Sandhya Rao</name><name sortKey="Turnshek, David A" sort="Turnshek, David A" uniqKey="Turnshek D" first="David A." last="Turnshek">David A. Turnshek</name></country><country name="France"><region name="Île-de-France"><name sortKey="Wild, Vivienne" sort="Wild, Vivienne" uniqKey="Wild V" first="Vivienne" last="Wild">Vivienne Wild</name></region></country><country name="Canada"><region name="Ontario"><name sortKey="Menard, Brice" sort="Menard, Brice" uniqKey="Menard B" first="Brice" last="Ménard">Brice Ménard</name></region></country><country name="Australie"><noRegion><name sortKey="Pettini, Max" sort="Pettini, Max" uniqKey="Pettini M" first="Max" last="Pettini">Max Pettini</name></noRegion></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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