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THREE-DIMENSIONAL GEOMETRIES AND THE ANALYSIS OF H II REGIONS
We compare emission line intensities from photoionization models of smooth and fractal shell geometries for low density H II regions, with particular focus on the low-ionization diagnostic diagram [NII]/H[alpha] versus H[alpha]. Building on previously published models and observations of Barnard...
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Published in: | The Astrophysical journal 2013-06, Vol.770 (2), p.1-5 |
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creator | Wood, Kenneth Barnes, J E Ercolano, Barbara Haffner, L M Reynolds, R J Dale, J |
description | We compare emission line intensities from photoionization models of smooth and fractal shell geometries for low density H II regions, with particular focus on the low-ionization diagnostic diagram [NII]/H[alpha] versus H[alpha]. Building on previously published models and observations of Barnard's Loop, we show that the observed range of intensities and variations in the line intensity ratios may be reproduced with a three-dimensional shell geometry. Our models adopt solar abundances throughout the model nebula, in contrast with previous one-dimensional modeling which suggested the variations in line intensity ratios could only be reproduced if the heavy element abundances were increased by a factor of ~1.4. For spatially resolved Hu regions, the multiple sightlines that pierce and sample different ionization and temperature conditions within smooth and fractal shells produce a range of line intensities that are easily overlooked if only the total integrated intensities from the entire nebula model are computed. Our conclusion is that inference of H II region properties, such as elemental abundances, via photoionization models of one-dimensional geometries must be treated with caution and further tested through three-dimensional modeling. |
doi_str_mv | 10.1088/0004-637X/770/2/152 |
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Building on previously published models and observations of Barnard's Loop, we show that the observed range of intensities and variations in the line intensity ratios may be reproduced with a three-dimensional shell geometry. Our models adopt solar abundances throughout the model nebula, in contrast with previous one-dimensional modeling which suggested the variations in line intensity ratios could only be reproduced if the heavy element abundances were increased by a factor of ~1.4. For spatially resolved Hu regions, the multiple sightlines that pierce and sample different ionization and temperature conditions within smooth and fractal shells produce a range of line intensities that are easily overlooked if only the total integrated intensities from the entire nebula model are computed. 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subjects | ASTROPHYSICS, COSMOLOGY AND ASTRONOMY COMPARATIVE EVALUATIONS Construction DENSITY ELEMENT ABUNDANCE Fractal analysis Fractals GEOMETRY H II regions Mathematical models NEBULAE ONE-DIMENSIONAL CALCULATIONS PHOTOIONIZATION SIMULATION Three dimensional THREE-DIMENSIONAL CALCULATIONS |
title | THREE-DIMENSIONAL GEOMETRIES AND THE ANALYSIS OF H II REGIONS |
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