Now Science knows the birth of first stars in the universe
Source :NewsBharati   Date :13-Jun-2018

Mumbai, June 13: Many times we look into the sky at the stars or sun and think that where did these stars come when they would have originated etc but now the science has its answer. Using a compact radio antenna 10 years in the making, researchers have discovered evidence of the oldest suns in the known universe. They’ve published their findings in Nature.


When we look at stars, we see them as they were, not as they are. That’s because the light takes time to travel from its source to our eyes. With powerful enough telescopes, we could directly see the very oldest stars in the universe. Unfortunately, those telescopes don’t exist.

Instead, we have to rely on indirect evidence. So that’s what a team of astronomers from Arizona State University (ASU), the Massachusetts Institute of Technology (MIT), and the University of Colorado at Boulder set out to find. Their search was part of the Experiment to Detect the Global EoR (Epoch of Reionization) Signature (EDGES) project, which is funded by the National Science Foundation (NSF).

The researchers posited that the earliest stars likely changed the universe’s background electromagnetic radiation, also known as cosmic microwave background (CMB). Although they knew what they were looking for a small change in the intensity of CMB radio signals between certain wavelengths — finding it wasn’t going to be easy, considering everything else going on in the universe.

Based on previous research, the team also knew that the universe’s earliest stars released large quantities of ultraviolet (UV) light. When this light interacted with hydrogen atoms, it would absorb CMB photons, leaving a signal in radio frequencies; an indication that stars were forming.

Using a customized radio antenna in the Australian desert, the team collected radio wave data until, at last, they found what they’d been looking for: a clear dip in CMB intensity. This dip indicated that ancient suns first emerged about 180 million years post-Big Bang. For several years the researchers checked and rechecked the data before concluding its validity.

“Finding this minuscule signal has opened a new window on the early universe,” said lead investigator Judd Bowman, an ASU cosmologist, in the press release. “It’s unlikely we’ll be able to see any earlier into the history of stars in our lifetime.”

The signal at the center of the EDGES project was twice as intense as expected, indicating that the absorbing hydrogen atoms were colder than researchers thought they’d be. One possible explanation could be an interaction with dark matter.

Even without the possible dark matter connection, the discovery is groundbreaking. The EDGES project team’s follow-up projects, designed to build off this remarkable research, are already in the works.