These rare galaxies aren’t forming stars like they should, and scientists don’t know why

Space.com

2 years ago

An artist’s impression of a post-starbust galaxy. (Image credit: ALMA (ESO/NAOJ/NRAO)/S. Dagnello (NRAO/AUI/NSF))

There’s something weird going on in the universe, specifically in rare galaxies.

Until now, scientists have worked under the belief that post-starburst galaxies (PSBs), or galaxies born from violent galactic collisions that are no longer forming stars, expel gas and dust and remain dormant, or unable to produce new stars. But new observations by the Atacama Large Millimeter/submillimeter Array (ALMA) in Chile indicate that PSBs actually retain much of their gas after the merger, which would typically fuel star formation.

But this creates quite a contradiction, as, even when they keep their gas, PSBs don’t form stars.

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When two galaxies collide violently, there’s usually a burst of star formation. But in rare instances,a galactic merger results in a PSB, where there’s little to no star formation at all. Scientists have theorized that the reason why is that the gas and dust required to birth stars is expelled from PSBs. But, according to the ALMA data in this new study, while PSBs compress their gas, which should be sufficient fuel to boost star formation, they still remain dormant.

“While this compact gas should be forming stars efficiently, it isn’t. In fact, it is less than 10 percent as efficient as similarly compact gas is expected to be,” astronomer Adam Smercina of the University of Washington, who was the principal investigator of the study, said in a statement.