We study the effects of a metallicity variation on the thermal balance and [CII] fine-structure line strengths in interstellar photon dominated regions (PDRs). We find that a reduction in the dust-to-gas ratio and the abundance of heavy elements in the gas phase changes the heat balance of the gas in PDRs. The surface temperature of PDRs decreases as the metallicity decreases except for high density ($n>10^6$ cm$^{-3}$) clouds exposed to weak ($\chi< 100$) FUV fields where vibrational H$_2$-deexcitation heating dominates over photoelectric heating of the gas. We incorporate the metallicity dependence in our KOSMA-$\tau$ PDR model to study the metallicity dependence of [CII]/CO line ratios in low metallicity galaxies. We find that the main t...
We investigate the relationship between stellar mass, metallicity and gas content for a magnitude-an...
We use the first systematic samples of CO millimeter emission in z >= 1 "main-sequence" star-forming...
The [C ii] 158 μm fine-structure line is the brightest emission line observed in local star-forming ...
We study the effects of a metallicity variation on the thermal balance and [CII] fine-structure line...
Almost all properties of a photodissociation region (PDR) depend on its metallicity. The heating and...
Context. We study the λ 158 μm [C II] fine-structure line emission from star-forming regions as a fu...
International audienceThe Interstellar Medium (ISM) comprises gases at different temperatures and de...
We examine colors from 3.6 micron to 24 micron as a function of metallicity (O/H) for a sample of 34...
We study the influence of gas metallicity, turbulence, and non-equilibrium chemistry on the evolutio...
International audienceWe investigate the relationship between the dust-to-metals ratio (D/M) and the...
As part of the Bluedisk survey, we analyse the radial gas-phase metallicity profiles of 50 late-type...
Dust plays an important role in shaping the interstellar radiation field and chemistry in the inters...
We study the thermal structure of the neutral atomic (H i) interstellar medium across a wide range o...
<p>To understand how star-formation properties in galaxies evolve, a better characterization of thei...
The ratio of the mass of interstellar dust to the total mass of metals (the dust-to-metals/DTM ratio...
We investigate the relationship between stellar mass, metallicity and gas content for a magnitude-an...
We use the first systematic samples of CO millimeter emission in z >= 1 "main-sequence" star-forming...
The [C ii] 158 μm fine-structure line is the brightest emission line observed in local star-forming ...
We study the effects of a metallicity variation on the thermal balance and [CII] fine-structure line...
Almost all properties of a photodissociation region (PDR) depend on its metallicity. The heating and...
Context. We study the λ 158 μm [C II] fine-structure line emission from star-forming regions as a fu...
International audienceThe Interstellar Medium (ISM) comprises gases at different temperatures and de...
We examine colors from 3.6 micron to 24 micron as a function of metallicity (O/H) for a sample of 34...
We study the influence of gas metallicity, turbulence, and non-equilibrium chemistry on the evolutio...
International audienceWe investigate the relationship between the dust-to-metals ratio (D/M) and the...
As part of the Bluedisk survey, we analyse the radial gas-phase metallicity profiles of 50 late-type...
Dust plays an important role in shaping the interstellar radiation field and chemistry in the inters...
We study the thermal structure of the neutral atomic (H i) interstellar medium across a wide range o...
<p>To understand how star-formation properties in galaxies evolve, a better characterization of thei...
The ratio of the mass of interstellar dust to the total mass of metals (the dust-to-metals/DTM ratio...
We investigate the relationship between stellar mass, metallicity and gas content for a magnitude-an...
We use the first systematic samples of CO millimeter emission in z >= 1 "main-sequence" star-forming...
The [C ii] 158 μm fine-structure line is the brightest emission line observed in local star-forming ...