Sunday, 05 December 2021 08:23 GMT

Unusual signals from space may hint at new class of stellar object


(MENAFN- Gulf Times) In yet another exciting news for space buffs, astronomers have discovered unusual signals coming from the direction of the Milky Way's centre. The radio waves fit no currently understood pattern of variable radio source and could suggest a new class of stellar object. The strangest property of this new signal is that it is has a very high polarisation. This means its light oscillates in only one direction, but that direction rotates with time, according to Ziteng Wang, lead author of the new study and a PhD student in the School of Physics at the University of Sydney. The brightness of the object also varies dramatically, by a factor of 100, and the signal switches on and off apparently at random. Something like it has never been seen before.
Many types of stars emit variable light across the electromagnetic spectrum, as explained in a statement from the University of Sydney. With tremendous advances in radio astronomy, the study of variable or transient objects in radio waves is a huge field of study helping us to reveal the secrets of the Universe. Pulsars, supernovae, flaring stars and fast radio bursts are all types of astronomical objects whose brightness varies. The researchers initially thought it could be a pulsar — a very dense type of spinning dead star — or else a type of star that emits huge solar flares. But the signals from this new source do not match what is expected from such celestial objects, as pointed out by Wang.
The discovery of the object has been published in the Astrophysical Journal. Wang and an international team, including scientists from Australia's national science agency CSIRO, Germany, the US, Canada, South Africa, Spain and France discovered the object using the CSIRO's ASKAP radio telescope in Western Australia. Follow-up observations were with the South African Radio Astronomy Observatory's MeerKAT telescope. Wang's PhD supervisor Professor Tara Murphy explained that they have been surveying the sky with ASKAP to find unusual new objects with a project known as variables and slow transients (VASTs), throughout 2020 and 2021.  Looking towards the centre of the galaxy, they found ASKAP J173608.2-321635, named after its co-ordinates. This object was unique in that it started out invisible, became bright, faded away and then reappeared. This behaviour was extraordinary.
After detecting six radio signals from the source over nine months in 2020, the astronomers tried to find the object in visual light. They found nothing. Subsequently, they turned to the Parkes radio telescope and again failed to detect the source. Professor Murphy said:“We then tried the more sensitive MeerKAT radio telescope in South Africa. Because the signal was intermittent, we observed it for 15 minutes every few weeks, hoping that we would see it again. Luckily, the signal returned, but we found that the behaviour of the source was dramatically different — the source disappeared in a single day, even though it had lasted for weeks in our previous ASKAP observations.” However, this further discovery did not reveal much more about the secrets of this transient radio source.
Wang's co-supervisor, Professor David Kaplan from the University of Wisconsin-Milwaukee, observed that the information they have has some parallels with another emerging class of mysterious objects known as galactic centre radio transients (GCRTs), including one dubbed the 'cosmic burper.' While the new object, ASKAP J173608.2-321635, does share some properties with GCRTs there are also differences. Since the scientists do not really understand those sources, this adds to the mystery. They plan to keep a close eye on the object to look for more clues as to what it might be.

MENAFN17102021000067011011ID1102984694


Legal Disclaimer:
MENAFN provides the information “as is” without warranty of any kind. We do not accept any responsibility or liability for the accuracy, content, images, videos, licenses, completeness, legality, or reliability of the information contained in this article. If you have any complaints or copyright issues related to this article, kindly contact the provider above.