Saturday , December 3 2016
Home / Technology / Science / This galaxy far, far away has farthest oxygen ever detected

This galaxy far, far away has farthest oxygen ever detected

The spiral galaxy NGC 4258, also known as M106, has two extra spiral arms as seen in this undated composite image X-ray data from NASA?s Chandra X-ray Observatory, radio data from the NSF?s Karl Jansky Very Large Array, optical data from NASA?s Hubble Space Telescope and infrared data from NASA?s Spitzer Space Telescope.  The image was published in the June 20, 2014 issue of The Astrophysical Journal Letter.  REUTERS/NASA/Handout via Reuters (UNITED STATES - Tags: SCIENCE TECHNOLOGY) ATTENTION EDITORS - THIS PICTURE WAS PROVIDED BY A THIRD PARTY. REUTERS IS UNABLE TO INDEPENDENTLY VERIFY THE AUTHENTICITY, CONTENT, LOCATION OR DATE OF THIS IMAGE. THIS PICTURE IS DISTRIBUTED EXACTLY AS RECEIVED BY REUTERS, AS A SERVICE TO CLIENTS.  FOR EDITORIAL USE ONLY. NOT FOR SALE FOR MARKETING OR ADVERTISING CAMPAIGNS
The spiral galaxy NGC 4258, also known as M106, has two extra spiral arms as seen in this undated composite image X-ray data from NASA?s Chandra X-ray Observatory, radio data from the NSF?s Karl Jansky Very Large Array, optical data from NASA?s Hubble Space Telescope and infrared data from NASA?s Spitzer Space Telescope. The image was published in the June 20, 2014 issue of The Astrophysical Journal Letter. REUTERS/NASA/Handout via Reuters (UNITED STATES - Tags: SCIENCE TECHNOLOGY) ATTENTION EDITORS - THIS PICTURE WAS PROVIDED BY A THIRD PARTY. REUTERS IS UNABLE TO INDEPENDENTLY VERIFY THE AUTHENTICITY, CONTENT, LOCATION OR DATE OF THIS IMAGE. THIS PICTURE IS DISTRIBUTED EXACTLY AS RECEIVED BY REUTERS, AS A SERVICE TO CLIENTS. FOR EDITORIAL USE ONLY. NOT FOR SALE FOR MARKETING OR ADVERTISING CAMPAIGNS

Washington D.C: A team of scientists has just discovered oxygen in a galaxy about 13.1 billion light-years away, making it the most distant oxygen ever discovered.

The discovery provides a glimpse into what the universe was like in ancient times.

The universe we know today is abundant with different chemical elements. But at the beginning of the universe, there was only hot, ionized gas filled with electrons and ions of hydrogen and helium buzzing around. After 400,000 years, the universe cooled, and electrons and hydrogen ions combined to form neutral hydrogen atoms.

Nothing more happened for several hundreds of millions of years until the first generation of stars were formed, emitting strong radiation that ionized hydrogen once again, also synthesizing other heavier elements such as carbon and oxygen.

Studying these heavy elements from this era provides clues about what triggered reionization, the nature of the first stars, and how galaxies were born. But studying these elements is extremely difficult because it requires astronomers to find objects as far away as possible, something only possible using the best telescopes available today.

One of these includes the Atacama Large Millimeter/submillimeter Array (ALMA) telescope in Chile. In June 2015, a team of researchers targeted SXDF-NB1006-2, a galaxy discovered in 2012 and confirmed by other telescopes as being the most distant galaxy discovered at the time.

Earlier in 2014, the team had run large-scale numerical simulations of galaxy formation to conclude that the ALMA telescope would be capable of detecting light from ionized oxygen in SXDF-NB1006-2.

As a result, ALMA detected radiation coming from doubly ionized oxygen. From the light’s strength the team also calculated the amount of oxygen in the galaxy is much smaller than that of the Sun.

“Our results showed this galaxy contains one tenth of oxygen found in our Sun. But the small abundance is expected because the universe was still young and had a short history of star formation at that time,” said Kavli Institute for the Physics and Mathematics of the Universe (Kavli IPMU) Project Professor Naoki Yoshid.

The team’s leader Akio Inoue of the Osaka Sangyo University has suggested the lack of dust could be an indication that almost all the gas in the galaxy is highly ionized.

“SXDF-NB1006-2 would be a prototype of the light sources responsible for the cosmic reionization,” said Inoue.

“This is the first step to understanding what kind of objects caused cosmic reionization,” added University of Tokyo’s Youichi Tamura.

The study appears in journal Science. (ANI)

Read Also

teamindus

TeamIndus signs historic launch contract with ISRO

8