November 30, 2023
Galactic archaeology uncovers the dramatic history of our next-door neighbor, the Andromeda galaxy
The evolution of elemental abundances [X/Fe] for O, Mg, Si, S, Ar and Ca (as well as [α/Fe] ≡ ([O/Fe]+[Mg/Fe]+[Si/Fe]+[S/Fe]+[Ca/Fe])/5) against [Fe/H] for the fiducial model of M31’s old thicker-disk (lookback time > 4.5 Gyr). Credit: arXiv (2023). DOI: 10.48550/arxiv.2309.01707

Research led by the University of Hertfordshire has revealed the dramatic history of Andromeda, our nearest neighboring galaxy. Using state-of-the-art modeling, Professor Chiaki Kobayashi and a team of international astrophysicists have determined details about the galaxy’s history through galactic archaeology—an approach that examines the chemical composition of stars and the development of their host galaxy, to reconstruct its past.

The study, accepted for publication in The Astrophysical Journal Letters and available on the arXiv preprint server, examines the elemental abundances in Andromeda, in particular the presence of both planetary nebulae—gas and dust that are formed from the cast-off outer layers of dying —and red-giant branch stars.

The analysis reveals that Andromeda’s formation was more dramatic and forceful than that of our own Milky Way. After an initial intense burst of star formation that created the galaxy, a secondary layer of stars was produced between 2 billion and 4.5 billion years ago, most likely triggered by what scientists call a “wet merger”—a merging of two, gas-rich that instigates a large amount of star formation.

Scientists have long thought it likely that Andromeda experienced a merger of two galaxies, based on the position and motion of individual stars in the galaxy. Professor Kobayashi’s research shines new light on the nature and impact of such a merger using the chemical composition of stars—and explains how stars and elements were formed throughout the history of Andromeda.

Professor Kobayashi, Professor of Astrophysics at the University of Hertfordshire’s Center for Astrophysics Research, said, “This is a fantastic example of how galactic archaeology can provide fresh new insights into the history of our universe. By analyzing the chemical abundance in different ages of stars in Andromeda, we can bring to life its history and better understand its origins.

“Although in many ways Andromeda is similar to our own Milky Way—it’s a similarly-sized, spiral disk galaxy—our new research confirms that its is far more intense and dramatic, with bursts of activity forming stars in abundance, and two distinct eras of star formation.”

Professor Kobayashi’s theoretical model predicts two distinct chemical compositions of stars in the two disk components of Andromeda—one has ten times more oxygen than iron, while another has a similar amount of oxygen and iron. This modeling has been confirmed by the spectroscopic observations of planetary nebulae, and also by those of red-giant stars with the James Webb Space Telescope (JWST).

The new study continues Professor Kobayashi’s ongoing research into the origin of elements in the universe. As she explains, “Oxygen is one of the so-called alpha-elements produced by massive stars. The others are neon, magnesium, silicon, sulfur, argon, and calcium.

“Oxygen and argon have been measured with planetary nebulae, but Andromeda is so far away that JWST is required to measure other elements, including iron. In coming years, JWST and ground-based large telescopes will keep looking at Andromeda—giving further weight to the new findings.”

More information:
Chiaki Kobayashi et al, On the α/Fe bimodality of the M31 disks, arXiv (2023). DOI: 10.48550/arxiv.2309.01707

Galactic archaeology uncovers the dramatic history of our next-door neighbor, the Andromeda galaxy (2023, October 12)
retrieved 12 October 2023

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