Carbon monoxide predicts “red and dead” future of gas-guzzler galaxy
Finding and studying carbon monoxide in more galaxies will tell astronomers even more about how stars formed in the early days of the universe and help solve the mystery of far-away “red and dead” galaxies.
Astronomers have studied the carbon monoxide in a galaxy over 12 billion light-years from Earth and discovered that it’s running out of gas, quite literally, and headed for a “red and dead” future.
The galaxy, known as ALESS65, was observed by the Atacama Large Millimeter/submillimeter Array (ALMA) in 2011 and is one of less than 20 known distant galaxies to contain carbon monoxide.
“We’re familiar with carbon monoxide here on Earth as the deadly gas that can cause suffocation, but in galaxies it plays an important role in the lifecycle of stars,” said Minh Huynh from the University of Western Australia node of the International Centre for Radio Astronomy Research (ICRAR).
“Out of the galaxies that we know contain carbon monoxide, less than 20 are as far away from Earth as ALESS65. Out of the billions of galaxies out there, the detections are very rare!”
Huynh said that, at first, astronomers didn’t think there could be massive “red and dead” galaxies in the distant universe, so studying galaxies heading toward that fate is important to solve the puzzle of their existence.
Using the Australia Telescope Compact Array (ATCA) radio telescope in NSW, Australia, Huynh and her team worked out how much carbon monoxide they could see in ALESS65 and extrapolated that out into how much fuel the galaxy has left.
“All galaxies have a certain amount of fuel to make new stars,” said Huynh. “Our galaxy, the Milky Way, has about 5 billion years before it runs out of fuel and becomes ‘red and dead,’ but ALESS65 is a gas guzzler and only has tens of millions of years left — very fast in astronomical terms.”
The team also combined their observations of the galaxy with the original data from ALMA to work out how similar ALESS65 is to galaxies nearer to Earth.
“We were able to work out the strength of the UV radiation in ALESS65. It’s similar to some ‘starbursting’ galaxies in the local universe, but the stars in ALESS65 are forming in much larger areas when compared to local galaxies,” said Huynh.
The team will now turn their attention to the search for carbon monoxide in another galaxy near to ALESS65, named ALESS61.
“Finding and studying carbon monoxide in more galaxies will tell us even more about how stars formed in the early days of the universe and help solve the mystery of far-away ‘red and dead’ galaxies,” said Huynh.