Gravitational lensing and international teamwork unveils 44 unknown stars
Physicists from across the world studying a distant galaxy in a multinational project have discovered more than 40 previously undetected stars.
Their work outlined in Nature Astronomy, reveals the remote starsโ behaviour 8 billion years ago, during the Universeโs so-called middle age or โcosmic noonโ.
Of the more than 45 international partners participating, the British contingent included Durham Universityโs Centre for Extragalactic Astronomy and the Jodrell Bank Centre for Astrophysics, Manchester University. The research was led by Japanโs Centre for Frontier Science at Chiba University.
The collaborators used observations from the James Webb Space Telescope (JWST) to focus on the Dragon Arc galaxy, situated behind Abell 370 cluster of galaxies.
To enhance their work, the scientists employed the technique of gravitational lensing. This employs a foreground galaxy cluster such as Abell 370 to bend light from a more distant object such as the Dragon Arc and magnifies it, allowing an opportunity to study the more distant object.
Combining the technique with high-resolution images from the JWST over a year, the research teams identified 44 previously unknown stars.
Durhamโs Dr David Lagattuta said: โWhen the team made this discovery, we knew that, given the size of the dots seen in the JWST images, the most logical explanation was that these were individual stars, seen for the first time, which is a hugely exciting discovery.
โWe know these are stars that have not been seen before by comparing them to previous image of the Dragon Arc which do not show these bright dots.โ
Many of the stars identified through this study are โred supergiantsโ, previously difficult to identify when situated outside the Milky Way because their layer of cosmic โdustโ had rendered them almost invisible to most telescopes but not to the JWST.
Professor Mathilde Jauzacย from the Centre for Extragalactic Astronomy and the Institute for Computational Cosmology at Durham said: โThis is the first time, that we are aware of, that so many stars have been discovered in one cluster. This finding enables us to see what the galaxy is made of in ways not possible before.โ
She added that star behaviour and development started to change around the cosmic noon; thus the new study provides an insight into that point in time
The researchers plan to develop their studies of the Dragonโs Arc, to differentiate between stellar populations being magnified by the cluster, so providing extra information about how stars formed and existed in that era of their development.
Photo: Greg Rakozy
Related Content
When plasma leaves the laboratory
The orbital laboratory is evolving into something more ambitious, a controlled industrial environment for producing next-generation materials, explainsย Ed Smithย andย Andrew Griffiths. …
Maths award adds up to nearly ยฃ2.8 mill for exchange research
Two of Swedenโs leading institutions have donated the equivalent of ยฃ2.78 million to fund 16 mathematicians for work ranging from …
Collaboratorsย apply intelligence to create smart telescopes
Britainโs Hartree Centre facility has teamed with one of Africaโs leading astronomical institutions to develop an โintelligent observatoryโ programme featuring …
