SPITZER AND HERSCHEL MULTIWAVELENGTH CHARACTERIZATION OF THE DUST CONTENT OF EVOLVED H II REGIONS

We have analyzed a uniform sample of 16 evolved H II regions located in a 2[degrees] x 2[degrees] Galactic field centered at (l,b) = (30[degrees], 0[degrees]) and observed as part of the Herschel Hi-GAL survey. The evolutionary stage of these H II regions was established using ancillary radio-contin...

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Veröffentlicht in:	The Astrophysical journal 2012-12, Vol.760 (2), p.1-25
Hauptverfasser:	PALADINI, R, UMANA, G, NATOLI, P, VENEZIANI, M, NORIEGA-CRESPO, A, ANDERSON, L. D, PIACENTINI, F, PINHEIRO GONCALVES, D, PARADIS, D, TIBBS, C. T, BERNARD, J.-P
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Sprache:	eng
Schlagworte:	Astronomy ASTROPHYSICS ASTROPHYSICS, COSMOLOGY AND ASTRONOMY COSMIC DUST Dust Earth, ocean, space ENERGY SPECTRA EQUILIBRIUM Evolution Exact sciences and technology FAR INFRARED RADIATION Galactic evolution GALAXIES Grains H II regions H2 REGIONS INTERSTELLAR GRAINS PHOTON EMISSION RADIATION PRESSURE RADIOASTRONOMY Replenishment Spectral energy distribution Spires STELLAR WINDS
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creator	PALADINI, R UMANA, G NATOLI, P VENEZIANI, M NORIEGA-CRESPO, A ANDERSON, L. D PIACENTINI, F PINHEIRO GONCALVES, D PARADIS, D TIBBS, C. T BERNARD, J.-P
description	We have analyzed a uniform sample of 16 evolved H II regions located in a 2[degrees] x 2[degrees] Galactic field centered at (l,b) = (30[degrees], 0[degrees]) and observed as part of the Herschel Hi-GAL survey. The evolutionary stage of these H II regions was established using ancillary radio-continuum data. By combining Hi-GAL PACS (70 [mu]m, 160 [mu]m) and SPIRE (250 [mu]m, 350 [mu]m, and 500 [mu]m) measurements with MIPSGAL 24 [mu]m data, we built spectral energy distributions of the sources and showed that a two-component gray-body model is a good representation of the data. In particular, wavelengths > 70 [mu]m appear to trace a cold dust component, for which we estimated an equilibrium temperature of the big grains (BGs) in the range 20-30 K, while for [lambda] < 70 [mu]m, the data indicate the presence of a warm dust component at temperatures of the order of 50-90 K. This analysis also revealed that dust is present in the interior of H II regions, although likely not in a large amount. In addition, the data seem to corroborate the hypothesis that the main mechanism responsible for the (partial) depletion of dust in H II regions is radiation-pressure-driven drift. In this framework, we speculated that the 24 [mu]m emission that spatially correlates with ionized gas might be associated with either very small grain or BG replenishment, as recently proposed for the case of wind-blown bubbles. Finally, we found that evolved H II regions are characterized by distinctive far-IR and submillimeter colors, which can be used as diagnostics for their identification in unresolved Galactic and extragalactic regions.
doi_str_mv	10.1088/0004-637X/760/2/149
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In this framework, we speculated that the 24 [mu]m emission that spatially correlates with ionized gas might be associated with either very small grain or BG replenishment, as recently proposed for the case of wind-blown bubbles. 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subjects	Astronomy ASTROPHYSICS ASTROPHYSICS, COSMOLOGY AND ASTRONOMY COSMIC DUST Dust Earth, ocean, space ENERGY SPECTRA EQUILIBRIUM Evolution Exact sciences and technology FAR INFRARED RADIATION Galactic evolution GALAXIES Grains H II regions H2 REGIONS INTERSTELLAR GRAINS PHOTON EMISSION RADIATION PRESSURE RADIOASTRONOMY Replenishment Spectral energy distribution Spires STELLAR WINDS
title	SPITZER AND HERSCHEL MULTIWAVELENGTH CHARACTERIZATION OF THE DUST CONTENT OF EVOLVED H II REGIONS
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