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Hungry galaxies grow fat on flesh of their neighbours

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Hungry galaxies grow fat on flesh of their neighbours

Modelling shows big galaxies get bigger by merging with smaller ones

TORONTO, Friday, April 24, 2020 – Galaxies grow large by eating their smaller neighbours, finds an international research team, including York University.

Exactly how massive galaxies attain their size is poorly understood, not least because they swell over billions of years. But now through a combination of observation and modelling, researchers, including the Faculty of Science’s Leo Alcorn, a York Science Fellow, have found a clue.

Distribution of dark matter density overlayed with the gas density. This image cleanly shows the gas channels connecting the central galaxy with its neighbours. Credit: Gupta et al/ASTRO 3D

Distribution of dark matter density overlayed with the gas density. This image cleanly shows the gas channels connecting the central galaxy with its neighbours. Credit: Gupta et al/ASTRO 3D

The research team, led by Post-Doctoral Researcher Anshu Gupta from Australia’s ARC Centre of Excellence for All Sky Astrophysics in 3 Dimensions (ASTRO 3D), included scientists from Australian, the United States, Canada, Mexico, Belgium and the Netherlands. They ran their modelling on a specially designed set of simulations known as IllustrisTNG.

In the paper, MOSEL Survey: Tracking the Growth of Massive Galaxies at 2 < z < 4 Using Kinematics and the IllustrisTNG Simulation, published in The Astrophysical Journal, the scientists combine data from an Australian project called the Multi-Object Spectroscopic Emission Line (MOSEL) survey with a cosmological modelling program running on some of the world’s largest supercomputers to glimpse the forces that create these ancient galactic monsters.

By analysing how gases within galaxies move it is possible to discover the proportion of stars made internally – and the proportion effectively cannibalised from elsewhere.

“We found that distant, massive galaxies, about 10 billion light years away from us, have more chaotic or random internal motions,” says Alcorn. “This is likely because these galaxies have merged with smaller galaxies, producing gravitational disruptions to the orbits of stars and gas. This matter is incorporated into the massive galaxies, growing the galaxy in mass and size”

Because light takes time to travel through the universe, galaxies further away from the Milky Way are seen at an earlier point in their existence. The team found that observation and modelling of these very distant galaxies revealed much less variation in their internal movements.

“As these huge galaxies gain more stars, they are able to gravitationally attract and merge with more surrounding small galaxies. Over billions of years, these old, massive galaxies grow increasingly chaotic, disordered, and large, constantly feeding on nearby neighbours,” says Alcorn.

This is a multi-year, international project that aims to build a series of large cosmological models of how galaxies form. The program is so big that it has to run simultaneously on several of the world’s most powerful supercomputers.

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Media Contact:

Sandra McLean, York University Media Relations, 416-272-6317, sandramc@yorku.ca