A UNSW-led team of
astronomers1 has begun to map the location of the most massive and mysterious objects in our
galaxy2 -- the giant gas clouds where new stars are born. Using a telescope at Coonabarabran that narrowly escaped
devastation3(毁坏) in a recent bushfire, the team identifies the galactic clouds of
molecular4 gas -- which can be up to 100 light years across -- from the carbon monoxide they contain.
"On Earth, carbon monoxide is poisonous -- a silent
killer5. But in space, it is the second most abundant
molecule6 and the easiest to see," says Professor Michael Burton, of the UNSW School of Physics, who leads the team.
"One of the largest unresolved mysteries in galactic astronomy is how these giant,
diffuse7(弥漫的) clouds form in the interstellar medium. This process plays a key role in the cosmic cycle of birth and death of stars."
A research paper on the first stage of the work -- covering a region of the sky about the size of four full moons -- is published in the journal Publications of the
Astronomical8 Society of Australia.
The carbon monoxide survey of the Southern
Milky9 Way is being carried out with the 22 metre Mopra millimetre wave telescope at Coonabarabran. While the adjoining workshop, office, and accommodation wing were destroyed in the bushfire in January, the telescope's control room survived because it was encased in brick.
The international team is also searching for "dark" galactic gas clouds -- unseen clouds that contain very little carbon monoxide. It is assumed these clouds are mostly made up of molecular hydrogen which is too cold to detect.
The team is using telescopes in Antarctica and Chile to search for these dark clouds, based on the presence of carbon atoms, rather than carbon
molecules10, in the clouds.
"Taken together, these three surveys will provide us with a picture of the distribution and movement of gas clouds in our galaxy," says Professor Burton.
Dark clouds, if found, could also be the "missing" source of gamma rays, which are produced when high-energy cosmic rays interact with the
nuclei11 of gas atoms or molecules they encounter when travelling through space.
"The source of more than 30 per cent of gamma rays
remains12 unidentified -- another big mystery our research could throw light on," says Professor Burton.
Some of the options for how large giant molecular clouds form include the gravitational
collapse13 of an
ensemble14 of small clouds into a larger one, or the
random15 collision of small clouds which then
agglomerate16.
About one star per year, on average, is formed in the Milky Way. Stars that explode and die then
replenish17(补充,装满) the gas clouds, as well as moving the gas about and mixing it up.