Carbon is the fourth most abundant element in the Galaxy with an abundance of approximately 4 x 10(exp -4) relative to hydrogen. Of all abundant metals it is the easiest to observe in the interstellar medium (ISM). Carbon can be found in four dominant forms: dust grains, C 2, C 1, and CO. The latter is the most abundant molecule (next to H2) in molecular clouds. All three gas-phase forms produce strong sub-mm wavelength emission lines and are the principal tracers of the warm and dense neutral phases of the ISM. We calculate the gas-phase abundances of neutral carbon (C 1), ionized carbon (C 2), and carbon monoxide (CO) as a function of cosmic time or redshift z in an idealized scenario of galactic evolution
We present Atacama Large Millimetre Array observations of a small but statistically complete sample ...
The bright 3P1–3P0 ([CI] 1–0) and 3P2–3P1 ([CI] 2–1) lines of atomic carbon are becoming more and mo...
Using the standard infall model of Galactic chemical evolution, we explore the origin of carbon and ...
In the dense interstellar medium, we find that about 20 percent of the total carbon abundance is in ...
Tracing the bulk of the molecular gas in galaxies is a task of paramount importance in extragalactic...
International audienceThe bright 3 P 1-3 P 0 ([CI] 1-0) and 3 P 2-3 P 1 ([CI] 2-1) lines of atomic c...
We have observed emission from the 492 GHz lines of C I toward six positions in the Ophiuchus molecu...
The bright 3 P 1 - 3 P 0 ([CI] 1-0) and 3 P 2 - 3 P 1 ([CI] 2-1) lines of atomic carbon are becoming...
Measuring molecular gas mass in galaxies relies on the use of tracers as cold H2 is invisible. Histo...
Carbon exists in several phases in the Interstellar Medium (ISM): dust, gaseous atoms/ions and gaseo...
Carbon monoxide (CO) is widely used as a tracer of molecular hydrogen (H2) in metal-rich galaxies, b...
We present the first results of an Atacama Large Millimeter Array survey of the lower fine-structure...
International audienceThe bright 3P1-3P0 ([CI] 1-0) and 3P2-3P1 ([CI] 2-1) lines of atomic carbon ar...
The cosmological origin of carbon, the fourth most abundant element in the universe, is not well kno...
Although carbon is the fourth most cosmically abundant element, it exists only rarely as neutral ato...
We present Atacama Large Millimetre Array observations of a small but statistically complete sample ...
The bright 3P1–3P0 ([CI] 1–0) and 3P2–3P1 ([CI] 2–1) lines of atomic carbon are becoming more and mo...
Using the standard infall model of Galactic chemical evolution, we explore the origin of carbon and ...
In the dense interstellar medium, we find that about 20 percent of the total carbon abundance is in ...
Tracing the bulk of the molecular gas in galaxies is a task of paramount importance in extragalactic...
International audienceThe bright 3 P 1-3 P 0 ([CI] 1-0) and 3 P 2-3 P 1 ([CI] 2-1) lines of atomic c...
We have observed emission from the 492 GHz lines of C I toward six positions in the Ophiuchus molecu...
The bright 3 P 1 - 3 P 0 ([CI] 1-0) and 3 P 2 - 3 P 1 ([CI] 2-1) lines of atomic carbon are becoming...
Measuring molecular gas mass in galaxies relies on the use of tracers as cold H2 is invisible. Histo...
Carbon exists in several phases in the Interstellar Medium (ISM): dust, gaseous atoms/ions and gaseo...
Carbon monoxide (CO) is widely used as a tracer of molecular hydrogen (H2) in metal-rich galaxies, b...
We present the first results of an Atacama Large Millimeter Array survey of the lower fine-structure...
International audienceThe bright 3P1-3P0 ([CI] 1-0) and 3P2-3P1 ([CI] 2-1) lines of atomic carbon ar...
The cosmological origin of carbon, the fourth most abundant element in the universe, is not well kno...
Although carbon is the fourth most cosmically abundant element, it exists only rarely as neutral ato...
We present Atacama Large Millimetre Array observations of a small but statistically complete sample ...
The bright 3P1–3P0 ([CI] 1–0) and 3P2–3P1 ([CI] 2–1) lines of atomic carbon are becoming more and mo...
Using the standard infall model of Galactic chemical evolution, we explore the origin of carbon and ...