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How nearby galaxies form their stars

Date:
December 21, 2020
Source:
University of Zurich
Summary:
How stars form in galaxies remains a major open question in astrophysics. A new study sheds new light on this topic with the help of a data-driven re-analysis of observational measurements. The star-formation activity of typical, nearby galaxies is found to scale proportionally with the amount of gas present in these galaxies. This points to the net gas supply from cosmic distances as the main driver of galactic star formation.
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Stars are born in dense clouds of molecular hydrogen gas that permeates interstellar space of most galaxies. While the physics of star formation is complex, recent years have seen substantial progress towards understanding how stars form in a galactic environment. What ultimately determines the level of star formation in galaxies, however, remains an open question.

In principle, two main factors influence the star formation activity: The amount of molecular gas that is present in galaxies and the timescale over which the gas reservoir is depleted by converting it into stars. While the gas mass of galaxies is regulated by a competition between gas inflows, outflows and consumption, the physics of the gas-to-star conversion is currently not well understood. Given its potentially critical role, many efforts have been undertaken to determine the gas depletion timescale observationally. However, these efforts resulted in conflicting findings partly because of the challenge in measuring gas masses reliably given current detection limits.

Typical star formation is linked to the overall gas reservoir

The present study from the Institute for Computational Science of the University of Zurich uses a new statistical method based on Bayesian modeling to properly account for galaxies with undetected amounts of molecular or atomic hydrogen to minimize observational bias. This new analysis reveals that, in typical star-forming galaxies, molecular and atomic hydrogen are converted into stars over approximately constant timescales of 1 and 10 billion years, respectively. However, extremely active galaxies ("starbursts") are found to have much shorter gas depletion timescales. "These findings suggest that star formation is indeed directly linked to the overall gas reservoir and thus set by the rate at which gas enters or leaves a galaxy," says Robert Feldmann, professor at the Center for Theoretical Astrophysics and Cosmology. In contrast, the dramatically higher star-formation activity of starbursts likely has a different physical origin, such as galaxy interactions or instabilities in galactic disks.

This analysis is based on observational data of nearby galaxies. Observations with the Atacama Large Millimeter/Submillimeter Array, the Square Kilometer Array and other observatories promise to probe the gas content of large numbers of galaxies across cosmic history. It will be paramount to continue the development of statistical and data-science methods to accurately extract the physical content from these new observations and to fully uncover the mysteries of star formation in galaxies.


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Materials provided by University of Zurich. Note: Content may be edited for style and length.


Journal Reference:

  1. Robert Feldmann. The link between star formation and gas in nearby galaxies. Communications Physics, 2020; 3 (1) DOI: 10.1038/s42005-020-00493-0

Cite This Page:

University of Zurich. "How nearby galaxies form their stars." ScienceDaily. ScienceDaily, 21 December 2020. <www.sciencedaily.com/releases/2020/12/201221134201.htm>.
University of Zurich. (2020, December 21). How nearby galaxies form their stars. ScienceDaily. Retrieved December 20, 2024 from www.sciencedaily.com/releases/2020/12/201221134201.htm
University of Zurich. "How nearby galaxies form their stars." ScienceDaily. www.sciencedaily.com/releases/2020/12/201221134201.htm (accessed December 20, 2024).

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