The global dust SED: tracing the nature and evolution of dust with DustEM

Compiègne, M.; Verstraete, L.; Jones, A. P.; Bernard, J.-P.; Boulanger, F.; Flagey, Nicolas; Bourlot, J. Le; Paradis, D.; Ysard, N.

doi:10.1051/0004-6361/201015292

Cited by 404 publications

(749 citation statements)

References 108 publications

(152 reference statements)

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“…As TIR emission can be enhanced by low-luminosity AGN and old stellar populations, that are unrelated to star-formation, the discrepancy of the TIR-estimated SFRs is likely easily explained. The discrepancy of the PAH-estimated SFRs is however not so easily explained, and may be due to the fact that PAH emission (like TIR emission) can trace star-formation regions with softer UV radiation fields than those traced in the FUV and at 22 µm (e.g., Compiègne et al 2011). The higher PAH SFRs therefore apparently call for less massive star formation.…”

Section: Star Formation In Etgsmentioning

confidence: 97%

A star formation study of the ATLAS^3Dearly-type galaxies with the AKARI all-sky survey

Kokusho

Kaneda

Bureau

et al. 2017

A&A

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Context. The star formation properties of early-type galaxies (ETGs) are currently the subject of considerable interest, particularly whether they differ from those of gas-rich spirals. Aims. We perform a systematic study of star formation in a large sample of local ETGs using polycyclic aromatic hydrocarbon (PAH) and dust emission, focusing on the galaxies' star formation rates (SFRs) and star formation efficiencies (SFEs). Methods. Our sample is composed of the 260 ETGs from the ATLAS 3D survey, from which we use the cold gas measurements (H i and CO). The SFRs are estimated from stellar, PAH and dust fits to spectral energy distributions created from new AKARI measurements and literature data from WISE and 2MASS. Results. The mid-infrared luminosities of non-CO-detected galaxies are well correlated with their stellar luminosities, showing that they trace (circum)stellar dust emission. CO-detected galaxies show an excess above these correlations, uncorrelated with their stellar luminosities, indicating that they likely contain PAHs and dust of interstellar origin. PAH and dust luminosities of CO-detected galaxies show tight correlations with their molecular gas masses, and the derived current SFRs are typically 0.01 -1 M ⊙ yr −1 . These SFRs systematically decrease with stellar age at fixed stellar mass, while they correlate nearly linearly with stellar mass at fixed age. The majority of local ETGs follow the same star-formation law as local star-forming galaxies, and their current SFEs do not depend on either stellar mass or age. Conclusions. Our results clearly indicate that molecular gas is fueling current star formation in local ETGs, that appear to acquire this gas via mechanisms regulated primarily by stellar mass. The current SFEs of local ETGs are similar to those of local star-forming galaxies, indicating that their low SFRs are likely due to smaller cold gas fractions rather than a suppression of star formation.

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Section: Star Formation In Etgsmentioning

confidence: 97%

A star formation study of the ATLAS^3Dearly-type galaxies with the AKARI all-sky survey

Kokusho

Kaneda

Bureau

et al. 2017

A&A

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“…In particular, small carbonaceous grains follow a power law and are not divided into separate dust populations as in previous dust models (e.g. , 2007Compiègne et al 2011), their optical properties are continuous and size-dependent from bulk material down to 0.3 nm, therefore making the characterisation of the grains more physical.…”

Section: The Jones Et Al (2013) Dust Modelmentioning

confidence: 98%

“…Jones et al 2013). Finally we couple the GRASH code to the DustEM code (Compiègne et al 2011) in order to calculate the emission and extinction of shocked dust.…”

Section: Introductionmentioning

confidence: 99%

A re-evaluation of dust processing in supernova shock waves

Bocchio

Jones

Slavin

2014

A&A

108

154

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Context. There is a long-standing and large discrepancy between the timescale for dust formation around evolved stars and the rapid dust destruction timescale in interstellar shocks. Aims. We use our latest estimates for dust processing to re-evaluate the dust destruction efficiency in supernova triggered shock waves, estimate the dust lifetime, and calculate the emission and extinction from shocked dust. Methods. We modelled the sputtering and fragmentation of grains in interstellar shocks for shock velocities between 50 km s −1 and 200 km s −1 . We constrained the dust destruction using our recent dust model. Finally, we coupled our code to the DustEM code in order to estimate the emission and extinction from the dust post-shock. Results. Carbonaceous grains are quickly destroyed, even in a 50 km s −1 shock, leading to a shorter lifetime than in previous studies. Silicate grains appear to be more resilient, but the new destruction lifetime that we find is similar to previous studies and short compared to the dust injection timescale. Conclusions. The calculated fraction of elements locked in grains is not compatible with the observed values and therefore implies the re-formation of dust in the dense regions of the interstellar medium. Better modelling of the silicate sputtering together with hydrodynamical simulations of interstellar shocks, appears to reduce the silicate destruction and may close the destruction-formation timescale gap.

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“…15 In this work we apply the Jones et al dust model, 15 using the extinction and mass size distributions for the model derived using the DustEM tool, 43 as shown in Figs. 3 and 4.…”

Section: Hydrocarbon Dust (Re-)accretionmentioning

confidence: 99%

The cycling of carbon into and out of dust

et al. 2014

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Observational evidence seems to indicate that the depletion of interstellar carbon into dust shows rather wide variations and that carbon undergoes rather rapid recycling in the interstellar medium (ISM). Small hydrocarbon grains are processed in photo-dissociation regions by UV photons and by ion and electron collisions in interstellar shock waves and by cosmic rays. A significant fraction of hydrocarbon dust must therefore be re-formed by accretion in the dense, molecular ISM. A new dust model [Jones et al., A&A, 2013, 558, A62] shows that variations in the dust observables, in the diffuse interstellar medium (n H ≤ 10 3 cm −3 ), can be explained by systematic and environmentally-driven changes in the small hydrocarbon grain population. Here we explore the consequences of gas-phase carbon accretion onto the surfaces of grains in the transition regions between the diffuse ISM and molecular clouds [e.g., Jones, A&A, 2013, 555, A39]. We find that significant carbonaceous dust re-processing and/or mantle accretion can occur in the outer regions of molecular clouds and that this dust will have significantly different optical properties from the dust in the adjacent diffuse ISM. We conclude that the (re-)processing and cycling of carbon into and out of dust is perhaps the key to advancing our understanding of dust evolution in the ISM.

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The global dust SED: tracing the nature and evolution of dust with DustEM

Cited by 404 publications

References 108 publications

A star formation study of the ATLAS^3Dearly-type galaxies with the AKARI all-sky survey

A star formation study of the ATLAS^3Dearly-type galaxies with the AKARI all-sky survey

A re-evaluation of dust processing in supernova shock waves

The cycling of carbon into and out of dust

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The global dust SED: tracing the nature and evolution of dust with DustEM

Cited by 404 publications

References 108 publications

A star formation study of the ATLAS3Dearly-type galaxies with the AKARI all-sky survey

A star formation study of the ATLAS3Dearly-type galaxies with the AKARI all-sky survey

A re-evaluation of dust processing in supernova shock waves

The cycling of carbon into and out of dust

Contact Info

Product

Resources

About

A star formation study of the ATLAS^3Dearly-type galaxies with the AKARI all-sky survey

A star formation study of the ATLAS^3Dearly-type galaxies with the AKARI all-sky survey