First-Generation Stars Formed More Quickly than Previously Thought

First-Generation Stars Formed More Quickly than Previously Thought

An international team of astronomers has discovered a massive cloud of gas that formed just 850 million years after the Big Bang. The chemical composition of the object reveals that the first generation of stars formed quickly and enriched the Universe with the elements they synthesized.

Source: Sci News

The Big Bang started the Universe as a hot, murky soup of extremely energetic particles that was rapidly expanding. As this material spread out, it cooled, and the particles coalesced into neutral hydrogen gas.

The Universe stayed dark, without any luminous sources, until gravity condensed matter into the first stars and galaxies.

All stars, including this first generation, act as chemical factories, synthesizing almost all of the elements that make up the world around us.

When the original stars exploded as supernovae, they spewed out the elements that they created, seeding the surrounding gas.

Subsequent generations of stars incorporated these elements and steadily increased the chemical abundances of their surroundings.

But the first stars formed in a still pristine, cold Universe. Consequently these initial stars produced elements in different proportions than those synthesized by younger stars, which were formed in an environment that was already enriched by earlier generations.

“Looking back in time far enough, one may expect cosmic gas clouds to show the tell-tale signature of the peculiar element ratios made by the first stars,” said Dr. Michael Rauch, an astronomer in the Observatories of the Carnegie Institution for Science.

“Peering even further back, we may ultimately witness the disappearance of most elements and the emergence of pristine gas.”

Astronomers have long used quasars to learn about the chemical composition of cosmic gas over time, showing how different generations of stars enrich their surroundings.

“We found this ancient gas cloud when following up on an inventory of very distant quasars using the Magellan telescopes at Carnegie’s Las Campanas Observatory in Chile,” said Dr. Eduardo Bañados, from the Observatories of the Carnegie Institution for Science and the Max-Planck-Institut für Astronomie.

Because the gas cloud exists between a quasar called P183+05 and us on Earth, the quasar’s incredibly bright light must pass through it to get to us and astronomers can take advantage of this to understand the cloud’s chemistry.

The team found that the cloud’s chemical makeup was quite modern, and not as primitive as expected if dominated by the first stars.

Although it formed only 850 million years after the Big Bang, its chemical abundances were already as high as those typically seen in cosmic gas clouds that were formed several billion years later.

“Apparently, the first generation of stars had already expired by the time the cloud formed,” Dr. Rauch said.

“This shows that the Universe was rapidly swamped by the chemical products of later generations of stars, even before most of the present-day galaxies were in place.”

The findings were published in the Astrophysical Journal.

Source: Sci News

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