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20 July 2023

JWST Just Detected Carbon in The Cosmic Dawn… Before We Thought Carbon Was Possible

The discovery suggests the earliest galaxies formed more quickly after the Big Bang than previously thought.


Using the powerful space telescope, a team of astronomers spotted signs of the element that forms the backbone of all life in ten different galaxies that existed as early as 1 billion years after the Big Bang. 

The detection of carbon dust so soon after the Big Bang could shake up theories surrounding the chemical evolution of the universe. This is because the processes that create and disperse heavier elements like this should take longer to build up in galaxies than the age of these young galaxies at the time the James Webb Space Telescope (JWST) sees them.

"The surprising finding here is that we can directly see and learn about the properties of these dust grains at such an early time, and we can tell they're carbon-based," research lead author and University of Cambridge scientist Joris Witstok told Space.com. "That's quite surprising in the context of what we previously expected."

The team spotted this carbon dust in this sample of ten galaxies by examining the light spectrum from them as part of the JWST Advanced Deep Extragalactic Survey (JADES). Detections like this are possible because elements absorb and emit light at characteristic wavelengths meaning they leave their "fingerprints" in light from sources such as galaxies and stars. 

The aromatic hydrocarbon dust was given away by a 'bump' in the absorption of specific ultraviolet frequencies of light. 

The question is, how did these young galaxies get enriched with carbon so quickly?

A cosmic "get rich quick" scheme?

The early universe was made up of mostly hydrogen and helium with tiny traces of some heavier elements, meaning the first stars and galaxies should have the same composition of just these light elements. 

Conventional models of the universe's chemical evolution suggest that heavy elements like carbon and oxygen are forged in the nuclear furnaces at the heart of stars. When the first stars ran out of the fuel for nuclear fusion and reached the end of their lives, they exploded in supernovas dispersing the material they had forged through the cosmos. This stellar matter is integrated into interstellar dust. 

When dense patches of this dust collapse, this material becomes the building blocks of the next generation of stars, which are thus richer in heavy elements and sit in similarly enriched galaxies. 

This is challenged by the findings reached by Witstok and colleagues as some of the galaxies they saw PAH dust in are estimated to be somewhere in the region of 10 million years old. That implies there must be a creation and dispersal method for carbon that works on a relatively short time scale.

The findings exemplify the kind of science that wouldn't have been possible before the JWST, which began observing the universe and delivering data and images in July 2022. 

The team's research was published on July 19 in the journal Nature