An international team of astronomers that includes one from 51ΑΤΖζ has discovered unusual radio signals coming from the direction of the center of the Milky Way galaxy, but they donβt have any idea what the source is.
The pattern of the radio waves fits no currently understood variable radio source and could suggest a new class of stellar object.
βWeβve never seen anything like it,β said Ziteng Wang, lead author of the new study and a PhD student at the University of Sydney. David Kaplan, 51ΑΤΖζ professor of physics, is Wangβs doctoral co-supervisor.
βThe strangest property of this new signal is that it is has a very high polarization,β Wang said. βThis means its light oscillates in only one direction, but that direction rotates with time.β
The discovery of the object has been published in The Astrophysical Journal.
Many types of stars emit variable light at frequencies in the radio wave range of the electromagnetic spectrum.
Wang and an international team, including scientists from Australiaβs national science agency CSIRO, Germany, the United States, Canada, South Africa, Spain and France, discovered the object using the CSIROβs ASKAP radio telescope in western Australia. Follow-up observations were with the South African Radio Astronomy Observatoryβs MeerKAT telescope.
This object was unique in that it started out invisible, became bright, faded away and then reappeared, said Tara Murphy, professor in the School of Physics at the University of Sydney and Wangβs doctoral supervisor.
After detecting six radio signals from the source over nine months in 2020, the astronomers tried to find the object in visual light but found nothing. Then they tried the more sensitive MeerKAT radio telescope and observed the signal for 15 minutes every few weeks intermittently before it vanished.
βThe information we do have has some parallels with another emerging class of mysterious objects known as galactic center radio transients (GCRTs), including one dubbed the βcosmic burper,ββ Kaplan said. The first cosmic burper was observed in 2002.
βWhile our new object, ASKAP J173608.2-321635, does share some properties with GCRTs, there are also differences. And we donβt really understand those sources anyway, so this adds to the mystery.β
By Laura Otto, University Relations