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Friday, July 1, 2022

Slow spin of early galaxy observed for the first time

The Atacama Large Millimeter/submillimeter Array (ALMA) by night
Credit: ALMA (ESO/NAOJ/NRAO)/B. Tafreshi (twanight.org)

One of the most distant known galaxies, observed in the very earliest years of the Universe, appears to be rotating at less than a quarter of the speed of the Milky Way today, according to a new study involving University of Cambridge researchers.

For the study, published in The Astrophysical Journal Letters, an international team of researchers analyzed data from a galaxy known as MACS1149-JD1 (JD1), obtained from observations by the Atacama Large Millimeter/submillimeter Array (ALMA), an assembly of radio telescopes in Chile.

The galaxy is so far away that its light comes to us from a time when the Universe was only 550 million years old – 4% of its present age.

The researchers, led by Tsuyoshi Tokuoka of Waseda University, found subtle variations in the wavelengths of the light indicating that parts of the galaxy were moving away from us while other parts were moving towards us. From these variations, they concluded that the galaxy was disc-shaped and rotating at a speed of 50 kilometers a second. By contrast, the Milky Way, at the Sun’s position, rotates with a speed of 220 kilometers per second today.

From the size of the galaxy and the speed of its rotation, the researchers were able to infer its mass, which in turn enabled them to confirm that it was likely 300 million years old and therefore formed about 250 million years after the Big Bang.

“This is by far the furthest back in time we have been able to detect a galaxy’s spin,” said co-author Professor Richard Ellis from University College London (UCL). “It allows us to chart the development of rotating galaxies over 96% of cosmic history – rotations that started slowly initially, but became more rapid as the Universe aged.

“These measurements support our earlier findings that this galaxy is well-established and likely formed about 250 million years after the Big Bang. On a cosmic time scale, we see it rotating not long after stars first lit up the Universe.”

“Our findings shed light on how galaxies evolved in the early Universe,” said co-author Dr Nicolas Laporte, from Cambridge’s Kavli Institute for Cosmology. “We see that, 300 million years after massive molecular clouds condensed and fused into stars, a galactic disk has developed and the galaxy has acquired a shape and rotation.”

“Determining whether distant galaxies are rotating is very challenging because they only appear as tiny dots in the sky,” said co-author Professor Akio K. Inoue, from Waseda University, Tokyo “Our new findings came thanks to two months of observations and the high resolution achieved by combining the 54 radio telescopes of the ALMA observatory.”

The further away a galaxy is from Earth, the faster it appears to move away from us. As objects moving away emit light shifted towards longer wavelengths (“redshifted”), this means we can calculate their distance, and in turn their age, from the extent of redshift.

Past studies have found JD1’s redshift to be 9.1, meaning what we see is from when the Universe was 550 million years old. In the latest study, the team picked out variations in the redshift across the galaxy, indicating differences in the speed at which the galaxy was moving away from us, meaning that, relatively speaking, one side was moving away while the other side was moving closer.

From the new observations, the team concluded that JD1 was only 3,000 light years across (by comparison, the Milky Way is 100,000 light years across) and that its total mass was equivalent to 1-2 billion times the mass of the Sun.

This mass is consistent with the galaxy being about 300 million years old, with most of the mass coming from mature stars that formed close to the start of the galaxy’s life.

The finding supports earlier evidence from the same researchers, who came up with the same age estimate for JD1 in a paper published last year, using a different technique based on the brightness of light at various frequencies. They determined the age of six galaxies including JD1, concluding that cosmic dawn – the moment stars first lit up the Universe – occurred 200 to 300 million years after the Big Bang.

The research was supported by MEXT in Japan, the Japan Society for the Promotion of Science, the European Research Council under the EU Horizon 2020 research and innovation program, and the Kavli Foundation.

Source/Credit: University of Cambridge | Sarah Collins

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