Your search keyword '"Rémy-Ruyer, Aurélie"' showing total 17 results

1. FIR extended emission from cold gas and dust in Blue Compact Dwarf Galaxies: the anomalous cases of POX 186 and UM 461

Author

Doublier, Vanessa and Remy-Ruyer, Aurelie

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

FIR observation of BCD galaxies with Herschel has revealed a wealth of new insights in these objects which are thought to resemble high-redshift forming galaxies. Dust and cold gas showed to be colder, in more or less quantities than expected and of uncertain origin. However, not unlike in the local universe, not all the dust or the cold gas is accounted for, making it more challenging. SPICA and its factor 10 to 100 in sensitivity will allow to image the faint extended cold gas/dusty disks in BCDGs in addition to detect faint C and O lines only marginally or not at all detected by Herschel/, Comment: to appear in: Astronomical Society of Pacific (ASP) Conference Series: From Exoplanets to Distant Galaxies: SPICA new window on the cool Universe

Published

2016

2. Far-reaching Dust Distribution in Galaxy Disks

Author

Smith, Matthew W. L., Eales, Stephen A., De Looze, Ilse, Baes, Maarten, Bendo, George J., Bianchi, Simone, Boquien, Médéric, Boselli, Alessandro, Buat, Veronique, Ciesla, Laure, Clemens, Marcel, Clements, David L., Cooray, Asantha R., Cortese, Luca, Davies, Jonathan I., Fritz, Jacopo, Gomez, Haley L., Hughes, Thomas M., Karczewski, Oskar Ł., Lu, Nanyao, Oliver, Seb J., Remy-Ruyer, Aurélie, Spinoglio, Luigi, and Viaene, Sebastien

Subjects

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

Abstract

In most studies of dust in galaxies, dust is only detected from its emission to approximately the optical radius of the galaxy. By combining the signal of 110 spiral galaxies observed as part of the Herschel Reference Survey, we are able to improve our sensitivity by an order-of-magnitude over that for a single object. Here we report the direct detection of dust from its emission that extends out to at least twice the optical radius. We find that the distribution of dust is consistent with an exponential at all radii with a gradient of ~-1.7 dex R$_{25}^{-1}$. Our dust temperature declines linearly from ~25 K in the centre to 15 K at R$_{25}$ from where it remains constant out to ~2.0 R$_{25}$. The surface-density of dust declines with radius at a similar rate to the surface-density of stars but more slowly than the surface-density of the star-formation rate. Studies based on dust extinction and reddening of high-redshift quasars have concluded that there are substantial amounts of dust in intergalactic space. By combining our results with the number counts and angular correlation function from the SDSS, we show that with Milky Way type dust we can explain the reddening of the quasars by the dust within galactic disks alone. Given the uncertainties in the properties of any intergalactic dust, we cannot rule out its existence, but our results show that statistical investigations of the dust in galactic halos that use the reddening of high-redshift objects must take account of the dust in galactic disks., Comment: 15 Pages, 7 Figures. Accepted to MNRAS 2016 July 4. Received 2016 July 4; in original form 2015 December 6

Published

2016

3. How Does Metallicity Affect the Gas and Dust Properties of Galaxies?

Author

Madden, Suzanne C., Cormier, Diane, and Remy-Ruyer, Aurelie

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Comparison of the ISM properties of a wide range of metal-poor galaxies with normal metal-rich galaxies reveals striking differences. We find that the combination of the low dust abundance and the active star formation results in a very porous ISM filled with hard photons, heating the dust in dwarf galaxies to overall higher temperatures than their metal-rich counterparts. This results in photodissociation of molecular clouds to greater depths, leaving relatively large PDR envelopes and difficult-to-detect CO cores. From detailed modeling of the low-metallicity ISM, we find significant fractions of CO-dark H2 - a reservoir of molecular gas not traced by CO, but present in the [CII] and [CI]-emitting envelopes. Self-consistent analyses of the neutral and ionized gas diagnostics along with the dust SED is the necessary way forward in uncovering the multiphase structure of galaxies, Comment: IAU Symposium: From Interstellar CLouds to Star-Forming Galaxies: Universal Processes? IAU Symposium No. 315, 2015

Published

2016

4. Spatially resolved physical conditions of molecular gas and potential star formation tracers in M83, revealed by the Herschel SPIRE FTS

Author

Wu, Ronin, Madden, Suzanne, Galliano, Frédéric, Wilson, Christine D., Kamenetzky, Julia, Lee, Min-Young, Schirm, Maximilien, Hony, Sacha, Lebouteiller, Vianney, Spinoglio, Luigi, Cormier, Diane, Glenn, Jason, Maloney, Philip R., Pereira-Santaella, Miguel, Rémy-Ruyer, Aurélie, Baes, Martin, Boselli, Alexandro, Bournaud, Frédéric, De Looze, Ilse, Hughes, Thomas M., Panuzzo, Pasquale, and Rangwala, Naseem

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Since the launch of the Herschel Space Observatory, our understanding about the photo-dissociation regions (PDR) has taken a step forward. In the bandwidth of the Fourier Transform Spectrometer (FTS) of the Spectral and Photometric Imaging REceiver (SPIRE) on board Herschel, ten CO rotational transitions, including J=4-3 to J=13-12, and three fine structure lines, including [CI] 609, [CI] 370, and [NII] 250 micron, are covered. In this paper, we present our findings from the FTS observations at the nuclear region of M83, based on the spatially resolved physical parameters derived from the CO spectral line energy distribution (SLED) map and the comparisons with the dust properties and star-formation tracers. We discuss (1) the potential of using [NII] 250 and [CI] 370 micron as star-formation tracers; (2) the reliability of tracing molecular gas with CO; (3) the excitation mechanisms of warm CO; (4) the possibility of studying stellar feedback by tracing the thermal pressure of molecular gas in the nuclear region of M83., Comment: Accepted for publication by A&A

Published

2014

5. High-resolution, 3D radiative transfer modeling : I. The grand-design spiral galaxy M51

Author

De Looze, Ilse, Fritz, Jacopo, Baes, Maarten, Bendo, George J., Cortese, Luca, Boquien, Médéric, Boselli, Alessandro, Camps, Peter, Cooray, Asantha, Cormier, Diane, Davies, Jon I., De Geyter, Gert, Hughes, Thomas M., Jones, Anthony P., Karczewski, Oskar L., Lebouteiller, Vianney, Lu, Nanyao, Madden, Suzanne C., Rémy-Ruyer, Aurélie, Spinoglio, Luigi, Smith, Matthew W. L., Viaene, Sebastien, and Wilson, Christine D.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Context: Dust reprocesses about half of the stellar radiation in galaxies. The thermal re-emission by dust of absorbed energy is considered driven merely by young stars and, consequently, often applied to trace the star formation rate in galaxies. Recent studies have argued that the old stellar population might anticipate a non-negligible fraction of the radiative dust heating. Aims: In this work, we aim to analyze the contribution of young (< 100 Myr) and old (~ 10 Gyr) stellar populations to radiative dust heating processes in the nearby grand-design spiral galaxy M51 using radiative transfer modeling. High-resolution 3D radiative transfer (RT) models are required to describe the complex morphologies of asymmetric spiral arms and clumpy star-forming regions and model the propagation of light through a dusty medium. Methods: In this paper, we present a new technique developed to model the radiative transfer effects in nearby face-on galaxies. We construct a high-resolution 3D radiative transfer model with the Monte-Carlo code SKIRT accounting for the absorption, scattering and non-local thermal equilibrium (NLTE) emission of dust in M51. The 3D distribution of stars is derived from the 2D morphology observed in the IRAC 3.6 {\mu}m, GALEX FUV, H{\alpha} and MIPS 24 {\mu}m wavebands, assuming an exponential vertical distribution with an appropriate scale height. The dust geometry is constrained through the far-ultraviolet (FUV) attenuation, which is derived from the observed total-infrared-to-far-ultraviolet luminosity ratio. The stellar luminosity, star formation rate and dust mass have been scaled to reproduce the observed stellar spectral energy distribution (SED), FUV attenuation and infrared SED. (abridged), Comment: Accepted for publication in Astronomy & Astrophysics, 23 pages, 15 figures

Published

2014

6. Probing the interstellar medium of NGC1569 with Herschel

Author

Lianou, Sophia, Barmby, Pauline, Remy-Ruyer, Aurelie, Madden, Suzanne C., Galliano, Frederic, and Lebouteiller, Vianney

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

NGC1569 has some of the most vigorous star formation among nearby galaxies. It hosts two super star clusters (SSCs) and has a higher star formation rate (SFR) per unit area than other starburst dwarf galaxies. Extended emission beyond the galaxy's optical body is observed in warm and hot ionised and atomic hydrogen gas; a cavity surrounds the SSCs. We aim to understand the impact of the massive star formation on the surrounding interstellar medium in NGC1569 through a study of its stellar and dust properties. We use Herschel and ancillary multiwavelength observations, from the ultraviolet to the submillimeter regime, to construct its spectral energy distribution, which we model with magphys on ~300pc scales at the SPIRE250 {\mu}m resolution. The multiwavelength morphology shows low levels of dust emission in the cavity, and a concentration of several dust knots in its periphery. The extended emission seen in the ionised and neutral hydrogen observations is also present in the far-infrared emission. The dust mass is higher in the periphery of the cavity, driven by ongoing star formation and dust emission knots. The SFR is highest in the central region, while the specific SFR is more sensitive to the ongoing star formation. The region encompassing the cavity and SSCs contains only 12 per cent of the dust mass of the central starburst, in accord with other tracers of the interstellar medium. The gas-to-dust mass ratio is lower in the cavity and fluctuates to higher values in its periphery., Comment: MNRAS accepted; 22 pages, 13 figures, 5 tables

Published

2014

7. The applicability of FIR fine-structure lines as Star Formation Rate tracers over wide ranges of metallicities and galaxy types

Author

De Looze, Ilse, Cormier, Diane, Lebouteiller, Vianney, Madden, Suzanne, Baes, Maarten, Bendo, George J., Boquien, Mederic, Boselli, Alessandro, Clements, David L., Cortese, Luca, Cooray, Asantha, Galametz, Maud, Galliano, Frederic, Gracia-Carpio, Javier, Isaak, Kate, Karczewski, Oskar L., Parkin, Tara J., Pellegrini, Eric W., Remy-Ruyer, Aurelie, Spinoglio, Luigi, Smith, Matthew, and Sturm, Eckhard

Subjects

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

Abstract

We analyze the applicability of far-infrared fine-structure lines [CII] 158 micron, [OI] 63 micron and [OIII] 88 micron to reliably trace the star formation rate (SFR) in a sample of low-metallicity dwarf galaxies from the Herschel Dwarf Galaxy Survey and compare with a broad sample of galaxies of various types and metallicities in the literature. We study the trends and scatter in the relation between the SFR (as traced by GALEX FUV and MIPS 24 micron) and far-infrared line emission, on spatially resolved and global galaxy scales, in dwarf galaxies. We assemble far-infrared line measurements from the literature and infer whether the far-infrared lines can probe the SFR (as traced by the total-infrared luminosity) in a variety of galaxy populations. In metal-poor dwarfs, the [OI] and [OIII] lines show the strongest correlation with the SFR with an uncertainty on the SFR estimates better than a factor of 2, while the link between [CII] emission and the SFR is more dispersed (uncertainty factor of 2.6). The increased scatter in the SFR-L([CII]) relation towards low metal abundances, warm dust temperatures, large filling factors of diffuse, highly ionized gas suggests that other cooling lines start to dominate depending on the density and ionization state of the gas. For the literature sample, we evaluate the correlations for a number of different galaxy populations. The [CII] and [OI] lines are considered to be reliable SFR tracers in starburst galaxies, recovering the star formation activity within an uncertainty of factor 2. [Abridged], Comment: 35 pages, 13 figures, accepted for publication in A&A on May 7th 2014

Published

2014

8. Herschel SPIRE-FTS Observations of Excited CO and [CI] in the Antennae (NGC 4038/39): Warm and Cold Molecular Gas

Author

Schirm, Maximilien R. P., Wilson, Christine D., Parkin, Tara J., Kamenetzky, Julia, Glenn, Jason, Rangwala, Naseem, Spinoglio, Luigi, Pereira-Santaella, Miguel, Baes, Maarten, Barlow, Michael J., Clements, Dave L., Cooray, Asantha, De Looze, Ilse, Karczewski, Oskar Ł., Madden, Suzanne C., Rémy-Ruyer, Aurélie, and Wu, Ronin

Subjects

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

Abstract

We present Herschel SPIRE-FTS observations of the Antennae (NGC 4038/39), a well studied, nearby ($22$ Mpc) ongoing merger between two gas rich spiral galaxies. We detect 5 CO transitions ($J=4-3$ to $J=8-7$), both [CI] transitions and the [NII]$205\mu m$ transition across the entire system, which we supplement with ground based observations of the CO $J=1-0$, $J=2-1$ and $J=3-2$ transitions, and Herschel PACS observations of [CII] and [OI]$63\mu m$. Using the CO and [CI] transitions, we perform both a LTE analysis of [CI], and a non-LTE radiative transfer analysis of CO and [CI] using the radiative transfer code RADEX along with a Bayesian likelihood analysis. We find that there are two components to the molecular gas: a cold ($T_{kin}\sim 10-30$ K) and a warm ($T_{kin} \gtrsim 100$ K) component. By comparing the warm gas mass to previously observed values, we determine a CO abundance in the warm gas of $x_{CO} \sim 5\times 10^{-5}$. If the CO abundance is the same in the warm and cold gas phases, this abundance corresponds to a CO $J=1-0$ luminosity-to-mass conversion factor of $\alpha_{CO} \sim 7 \ M_{\odot}{pc^{-2} \ (K \ km \ s^{-1})^{-1}}$ in the cold component, similar to the value for normal spiral galaxies. We estimate the cooling from H$_2$, [CII], CO and [OI]$63\mu m$ to be $\sim 0.01 L_{\odot}/M_{\odot}$. We compare PDR models to the ratio of the flux of various CO transitions, along with the ratio of the CO flux to the far-infrared flux in NGC 4038, NGC 4039 and the overlap region. We find that the densities recovered from our non-LTE analysis are consistent with a background far-ultraviolet field of strength $G_0\sim 1000$. Finally, we find that a combination of turbulent heating, due to the ongoing merger, and supernova and stellar winds are sufficient to heat the molecular gas., Comment: 50 pages, 15 figures, 8 tables, Accepted for publication in The Astrophysical Journal

Published

2013

9. Probing the impact of metallicity on the dust properties in galaxies

Author

Rémy-Ruyer, Aurélie, Astrophysique Interprétation Modélisation (AIM (UMR_7158 / UMR_E_9005 / UM_112)), Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7), Université Paris Sud - Paris XI, Suzanne Madden, Astrophysique Interprétation Modélisation (AIM (UMR7158 / UMR_E_9005 / UM_112)), and Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Galaxies : abondances, Galaxies: abundances, Galaxies naines, Galaxies : photometrie, ISM:evolution, ISM:abundances, Galaxies : milieu interstellaire (MIS), Metallicity, Galaxies: interstellar medium (ISM), MIS : poussières, Submillimeter: ISM, ISM:extinction, Métallicité, Dwarf galaxies, Infrared: ISM, MIS : extinction, ISM:dust, Galaxies irregulières, Galaxies: photometry, Infrared: galaxies, Irregular galaxies, Submillimétrique : MIS, MIS : évolution, MIS : abondances, Infrarouge : galaxies, Galaxies : flambée de formation d'étoiles, [SDU.OTHER]Sciences of the Universe [physics]/Other, Galaxies: starburst, Infrarouge : MIS

Abstract

As galaxies evolve, their Interstellar Medium (ISM) becomes continually enriched with metals, and this metal enrichment influences the subsequent star formation. Low metallicity dwarf galaxies of the local Universe are ideal candidates to study the influence of metal enrichment on the ISM properties of galaxies and gives us insight into the enrichment process and star formation under ISM conditions that may provide clues to conditions in early universe metal-poor systems. Previous studies have shown that the ISM of dwarf galaxies poses a number of interesting puzzles in terms of the abundance of dust grains, the dust composition and even the FIR emission processes. However these studies were limited to the warmer dust emitting at wavelengths shorter than 200 microns and were done only on a small number of dwarf galaxies. Thanks to its increased sensitivity and resolution in FIR and submillimeter (submm) wavelengths, Herschel gives us a new view on the cold dust properties in galaxies and enables us to study the lowest metallicity galaxies in a systematic way. In this work, I carry out a study of the dust properties in dwarf galaxies and compare with more metal rich environments, in order to address the question of the impact of metallicity on the dust properties. The novelty of this work lays in the fact that dwarf galaxies are studied here in a systematic way, enabling us to derive and quantify the general properties that are representative of these systems. This study is conducted over the full IR-to-submm range, using new FIR/submm Herschel observations, Spitzer, WISE, IRAS and 2MASS data. We complete this set of data with longer submm measurements from ground-based facilities such as APEX and JCMT to study the presence and characteristics of the submm excess in my sample of galaxies. I also collect Hi and CO data to access the gas properties of the galaxies and study the evolution of the G/D with metallicity. Our study reveal different dust properties in low-metallicity environments than that observed in more metal-richs systems (e.g., an overall warmer dust component). An excess submm emission is often apparent near and/or beyond 500 microns rendering large uncertainties in the dust properties, even for something as fundamental as dust masses. Some of the smallest excesses can be explained by using another dust composition with more emissive grains. Ideal tracer of the chemical evolutionary stage of a galaxy, the gas-to-dust mass ratios (G/D) is found to be much higher than what is expected by simple chemical evolution models. Interpreted with more sophisticated chemical evolution models, including dust growth in the ISM and/or episodic star formation, the relation of the G/D with metallicity and its scatter can be explained by the wide variety of environments we are considering.; Alors que les galaxies évoluent, leur milieu interstellaire (MIS) s’enrichit continuellement en métaux, et cet enrichissement influence la formation d’étoiles. Les galaxies naines de faible métallicité de l’Univers Local sont les candidates idéales pour étudier l’influence de cet enrichissement en métaux sur les propriétés du MIS des galaxies et nous donne un aperçu des processus d’enrichissement et de formation stellaire dans des conditions proches de celles trouvées dans les systèmes pauvres en métaux de l’Univers primordial. Des études précédentes ont montré que le MIS des galaxies naines pose un certain nombre d’énigmes en terme d’abondance des grains, de composition de la poussière et même des processus d’émission en infrarouge lointain (FIR). Cependant, ces études étaient limitées à la poussière chaude émettant à des longueurs d’onde plus courtes que 200 micromètres et étaient effectuées sur un petit nombre de galaxies. Grâce à une sensibilité et une résolution améliorées dans les domaines FIR et submillimétriques (submm), Herschel nous donne une vue nouvelle sur les propriétés de la poussière froide dans les galaxies et nous permet d’étudier les galaxies les plus pauvres en métaux de manière systématique. Dans ce travail, je mène une étude des propriétés des poussières dans les galaxies naines et compare avec des environnements plus riches en métaux, pour aborder la question de l’impact de la métallicité sur les propriétés de la poussière. La nouveauté de ce travail réside dans le fait que les galaxies naines sont étudiées de manière systématique, nous permettant d’accéder aux, et de quantifier les propriétés générales représentatives de ces systèmes. Cette étude est conduite sur toute la gamme de longueurs d’onde infrarouge (IR)-submm, avec les nouvelles observations en FIR/submm d’Herschel, ainsi que des données Spitzer, WISE, IRAS, et 2MASS. Nous complétons ces données avec des mesures en domaine submm de télescopes au sol comme APEX ou le JCMT, pour étudier la présence et les caractéristiques de l’excès submm dans mon échantillon de galaxies. Je collecte aussi les données HI et CO pour accéder aux propriétés du gaz dans ces galaxies et étudier l’évolution du rapport en masse gaz-sur-poussière (G/D) avec la métallicité. Notre étude révèle des propriétés de poussière différentes dans les environnements de faible métallicité que celles observées dans des systèmes plus riches en métaux (par exemple, une poussière globalement plus chaude). Une émission en excès par rapport aux modèles utilisés, apparait souvent aux alentours de 500 micromètres, menant à d’importantes incertitudes sur les propriétés de la poussière, notamment sur la masse de poussière. Les excès les moins importants peuvent cependant être expliqués en utilisant une autre composition pour la poussière, avec des grains plus émissifs. Traceur idéal de l’état d’évolution chimique d’une galaxie, le G/D est en fait bien plus grand que ce que l’on pourrait attendre si l’on considère un modèle simple d’évolution chimique. Interprétée avec des modèles d’évolution chimique plus complexes, incorporant des processus de croissance des grains et/ou une formation d’étoiles épisodique, la relation entre le G/D et la métallicité, ainsi que sa dispersion, peuvent être expliquées par la grande variété d’environnements que nous considérons dans notre étude.

Published

2013

10. How does metallicity affect the gas and dust properties of galaxies?

Author

Madden, Suzanne C., primary, Cormier, Diane, additional, and Rémy-Ruyer, Aurélie, additional

Published

2015

11. The survival of PAHs and (hydro)carbon nanoparticles in H II regions

Author

Micelotta, Elisabetta R., primary, Bocchio, Marco, additional, Rémy-Ruyer, Aurélie, additional, Köhler, Melanie, additional, Ysard, Nathalie, additional, and Jones, Anthony P., additional

Published

2015

12. High-resolution, 3D radiative transfer modeling

Author

De Looze, Ilse, primary, Fritz, Jacopo, additional, Baes, Maarten, additional, Bendo, George J., additional, Cortese, Luca, additional, Boquien, Médéric, additional, Boselli, Alessandro, additional, Camps, Peter, additional, Cooray, Asantha, additional, Cormier, Diane, additional, Davies, Jon I., additional, De Geyter, Gert, additional, Hughes, Thomas M., additional, Jones, Anthony P., additional, Karczewski, Oskar Ł., additional, Lebouteiller, Vianney, additional, Lu, Nanyao, additional, Madden, Suzanne C., additional, Rémy-Ruyer, Aurélie, additional, Spinoglio, Luigi, additional, Smith, Matthew W. L., additional, Viaene, Sebastien, additional, and Wilson, Christine D., additional

Published

2014

13. The applicability of far-infrared fine-structure lines as star formation rate tracers over wide ranges of metallicities and galaxy types

Author

De Looze, Ilse, primary, Cormier, Diane, additional, Lebouteiller, Vianney, additional, Madden, Suzanne, additional, Baes, Maarten, additional, Bendo, George J., additional, Boquien, Médéric, additional, Boselli, Alessandro, additional, Clements, David L., additional, Cortese, Luca, additional, Cooray, Asantha, additional, Galametz, Maud, additional, Galliano, Frédéric, additional, Graciá-Carpio, Javier, additional, Isaak, Kate, additional, Karczewski, Oskar Ł., additional, Parkin, Tara J., additional, Pellegrini, Eric W., additional, Rémy-Ruyer, Aurélie, additional, Spinoglio, Luigi, additional, Smith, Matthew W. L., additional, and Sturm, Eckhard, additional

Published

2014

14. A View on Dust Evolution with Metallicity and ISM physical conditions, from Herschel Observations of the Nearby Universe

Author

Galliano, Frédéric, primary, Rémy-Ruyer, Aurélie, additional, and Madden, Suzanne C., additional

Published

2014

15. HERSCHEL-SPIRE FOURIER TRANSFORM SPECTROMETER OBSERVATIONS OF EXCITED CO AND [C I] IN THE ANTENNAE (NGC 4038/39): WARM AND COLD MOLECULAR GAS

Author

Schirm, Maximilien R. P., primary, Wilson, Christine D., additional, Parkin, Tara J., additional, Kamenetzky, Julia, additional, Glenn, Jason, additional, Rangwala, Naseem, additional, Spinoglio, Luigi, additional, Pereira-Santaella, Miguel, additional, Baes, Maarten, additional, Barlow, Michael J., additional, Clements, Dave L., additional, Cooray, Asantha, additional, De Looze, Ilse, additional, Karczewski, Oskar Ł., additional, Madden, Suzanne C., additional, Rémy-Ruyer, Aurélie, additional, and Wu, Ronin, additional

Published

2014

16. Detection of H i absorption in the dwarf galaxy Haro 11

Author

MacHattie, Jeremy A., primary, Irwin, Judith A., additional, Madden, Suzanne C., additional, Cormier, Diane, additional, and Rémy-Ruyer, Aurélie, additional

Published

2013

17. High-resolution, 3D radiative transfer modeling I. The grand-design spiral galaxy M51.

Author

Fritz, Jacopo, Baes, Maarten, Camps, Peter, De Geyter, Gert, Hughes, Thomas M., Viaene, Sebastien, De Looze, Ilse, Jones, Anthony P., Rémy-Ruyer, Aurélie, Karczewski, Oskar Ł., Lebouteiller, Vianney, Madden, Suzanne C., Nanyao Lu, Luigi Spinoglio, Wilson, Christine D., Boquien, Médéric, Bendo, George J., Cortese, Luca, Boselli, Alessandro, and Cooray, Asantha

Subjects

STELLAR radiation, SPIRAL galaxies, THERMODYNAMIC equilibrium, SPECTRAL energy distribution, ATTENUATION (Physics)

Abstract

Context. Dust reprocesses about half of the stellar radiation in galaxies. The thermal re-emission by dust of absorbed energy is considered to be driven merely by young stars so is often applied to tracing the star formation rate in galaxies. Recent studies have argued that the old stellar population might be responsible for a non-negligible fraction of the radiative dust heating. Aims. In this work, we aim to analyze the contribution of young (≲100 Myr) and old (~10 Gyr) stellar populations to radiative dust heating processes in the nearby grand-design spiral galaxy M51 using radiative transfer modeling. High-resolution 3D radiative transfer (RT) models are required to describe the complex morphologies of asymmetric spiral arms and clumpy star-forming regions and to model the propagation of light through a dusty medium. Methods. In this paper, we present a new technique developed to model the radiative transfer effects in nearby face-on galaxies. We construct a high-resolution 3D radiative transfer model with the Monte-Carlo code SKIRT to account for the absorption, scattering, and non-local thermal equilibrium (NLTE) emission of dust in M51. The 3D distribution of stars is derived from the 2D morphology observed in the IRAC 3.6 μm, GALEX FUV, Hμα and MIPS 24 μm wavebands, assuming an exponential vertical distribution with an appropriate scale height. The dust geometry is constrained through the far-ultraviolet (FUV) attenuation, which is derived from the observed total-infrared-to-far-ultraviolet luminosity ratio. The stellar luminosity, star formation rate, and dust mass have been scaled to reproduce the observed stellar spectral energy distribution (SED), FUV attenuation, and infrared SED. Results. The dust emission derived from RT calculations is consistent with far-infrared and submillimeter observations of M51, implying that the absorbed stellar energy is balanced by the thermal re-emission of dust. The young stars provide 63% of the energy for heating the dust responsible for the total infrared emission (8-1000 μm), while 37% of the dust emission is governed through heating by the evolved stellar population. In individual wavebands, the contribution from young stars to the dust heating dominates at all infrared wavebands but gradually decreases towards longer infrared and submillimeter wavebands for which the old stellar population becomes a non-negligible source of heating. Upon extrapolation of the results for M51, we present prescriptions for estimating the contribution of young stars to the global dust heating based on a tight correlation between the dust heating fraction and specific star formation rate. [ABSTRACT FROM AUTHOR]

Published

2014