From AAS NOVA: “How Do Milky Way–Like Galaxies Grow?” 

AASNOVA

From AAS NOVA

8.12.22
Kerry Hensley

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How do Milky Way–like galaxies, like NGC 6744 shown in this image from The European Southern Observatory, grow over time? [The European Southern Observatory [La Observatorio Europeo Austral] [Observatoire européen austral][Europaiche Sûdsternwarte] (EU)(CL)]

Milky Way–like galaxies are abundant in the universe. A recent publication scours astronomical surveys to understand how these familiar spirals grow over billions of years.

How Does Your Galaxy Grow?

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A field of galaxies from the Cosmic Assembly Near-infrared Deep Extragalactic Legacy Survey. [NASA, ESA, P. Oesch and I. Momcheva (Yale University), and the 3D-HST and HUDF09/XDF Teams]

In the first billion years after the Big Bang, galaxies began to form. But how the earliest galaxies evolved into those we see in the local universe today is still up for debate. One facet of this question is the growth of galaxies’ stellar mass — the amount of mass locked up in stars as opposed to gas clouds or dark matter. A galaxy’s stellar mass grows over time as gas clouds collapse to form stars, but it’s not yet clear how this growth proceeds; are galactic centers early hubs of star formation, do the outskirts skirt out ahead, or do all regions gain stellar mass at a similar rate?

In a recent study, a team led by Maryam Hasheminia (Shiraz University and Institute for Advanced Studies in Basic Sciences) turned to survey data to understand how the Milky Way and galaxies like it grew into the galaxies they are today.

Looking for Lookalikes

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Size evolution of Milky Way–like galaxies selected using the first method (red), the second method (blue), and from cosmological simulations (green). The quantities r20, r50, and r80 are the radii within which 20%, 50%, and 80% of the galaxies’ stellar mass is contained, respectively. [Adapted from Hasheminia et al. 2022]

When we observe galaxies as they existed billions of years ago, how do we know which galaxies will grow to look like the Milky Way? Hasheminia and collaborators used two methods to pick Milky Way–like galaxies out of the Cosmic Assembly Near-infrared Deep Extragalactic Legacy Survey (CANDELS) and the 3D-Hubble Space Telescope survey.

In the first method, the team assumed that Milky Way–type galaxies follow the observed relationship between galactic stellar mass and star formation rate for galaxies that are actively forming stars, and the authors selected galaxies out of the survey data that followed that relation. In the second method, the team matched the stellar masses and ages of galaxies in the survey data to the stellar growth history of the Milky Way as derived from chemical evolution models.

Self-Similar Growth

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Evolution of the half-mass radius (r50) of Milky Way–like galaxies with increasing stellar mass. [Adapted from Hasheminia et al. 2022]

Hasheminia and collaborators then studied how the stellar masses of the selected galaxies evolved over time and compared their findings against results from cosmological simulations. Both methods showed that the half-mass radius — the radius within which half a galaxy’s stars (by mass) are contained — of Milky Way–like galaxies has changed little over the past 10 billion years.

The results indicate that all parts of these galaxies gain stellar mass at a similar rate. This contrasts with the hypothesis of inside-out growth, in which star formation ramps up in the center of a galaxy first before spreading to the outer regions, as well as the results of cosmological simulations; simulations matched the team’s findings early in the history of the universe, but they diverged around 6 billion years ago.

The team suggests that their findings are consistent with previous Milky Way evolution scenarios, in which a thick disk of stars formed when the universe was about 6 billion years old, before star formation stalled and a bar of stars formed in the center of the galaxy. To fully unravel the growth history of the Milky Way and galaxies like it, we’ll need high-resolution observations of galaxies in the distant past — and with JWST, such observations are in our future!

Citation

No Evolution in the Half-mass Radius of Milky Way–type Galaxies over the Last 10 Gyr, Maryam Hasheminia et al 2022 ApJL 932 L23.
https://iopscience.iop.org/article/10.3847/2041-8213/ac76c8/pdf

See the full article here .


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