The new sensors see mysterious radio signals.

"CSIRO’s ASKAP radio telescope is made up of 36 dishes spread out across 6km on Wajarri Country. Credit: Alex Cherney/CSIRO.(ScitechDaily, Discovery on Overdrive: Australia’s New Tech Uncovers Mysterious Signals From Deep Space)

The new CRACO telescope is an ultimate tool.  "CRACO is made up of a cluster of computers and accelerators connected to the ASKAP radio telescope at Inyarrimanha Ilgari Bundara, the CSIRO Murchison Radio-astronomy Observatory on Wajarri Yamaji Country. The development of this technology reinforces Australia’s international reputation as a leader in radio astronomy engineering and research." (ScitechDaily, Discovery on Overdrive: Australia’s New Tech Uncovers Mysterious Signals From Deep Space)

The new sensors see mysterious radio signals. That thing is and is not surprising. The new and sensitive sensor systems are powerful tools. That can detect new things that we never detected before. And the universe is full of new and interesting things. There is a cosmic hum that the Voyager space probe first detected when it traveled out from the heliosphere. 

And that means there are lots of signals outside the solar system that we never detected. And we cannot detect those signals. Before there is a radiotelescope outside the heliopause. New sensors that operate under the AI are tools that can scan multiple frequencies simultaneously. 

The radiation that arrives in the solar system must have a certain energy level. So that it can penetrate through the sun's radio waves. In that process the frequency of radiation changes. So maybe the new sensors can find many things that were a mystery before. And maybe they find out what caused the BLC-1 and Wow!-signals? 

In some models, the Doppler effect that stretches radiation turns some GRB gamma-ray bursts can be behind the Wow! and BLC-1. If a very massive object is behind the GRB, that object can stretch the GRB into radio waves. 

"Example of a galaxy hosting a fast radio burst identified by the CRACO system. Credit: Yuanming Wang, the CRAFT Collaboration. (ScitechDaily, Discovery on Overdrive: Australia’s New Tech Uncovers Mysterious Signals From Deep Space)

Can the BLC-1 (Breakthrough Listen Candidate 1) radio signal have the same origin as the Uranus' X-ray flares? Could the source for the BLC-1 be in our solar system? The BLC-1 came from the direction of the Proxima Centauri. But that doesn't mean that the BLC-1 origin is in the Proxima Centauri. And could the origin of the Wow! Signal also be in our solar system? When we think about the mysterious X-ray flares in the Uranus' atmosphere there is the possibility that similar high-energy particles hit some icy objects. 

It's possible that when an antimatter particle or some other very high-energy particle hits some other particle it forms a short-term cosmic microvoid. When some radiation travels through that kind of phenomenon there is no resistance at that point. That can stretch radiation longer. 

Those mystery signals can involve information about the intelligent civilization. Or they can also tell something about the mysterious primordial black holes. When we think about the mysterious radio signal from Proxima Centauri's direction called BLC-1 that signal might not be alien transmission. 

But there is one possibility. And that is some very heavy object pulls some other radiation backward. That gravity effect can turn X- and gamma rays into radio signals. There are also mysterious X-ray flares in Uranus' atmosphere. Could the origin of BLC-1 be in our solar system? So does the origin of the particles that cause those mysterious X-ray flares on Uranus' atmosphere be the same thing that caused the BLC-1? The origin of those radio signals stays open. But if those radio signals come from our solar system that is one of the most interesting things that we can imagine. 

https://www.csiro.au/en/news/All/News/2025/January/Australian-innovation-sifts-space-for-mysteries

https://scitechdaily.com/discovery-on-overdrive-australias-new-tech-uncovers-mysterious-signals-from-deep-space/

https://www.space.com/uranus-emitting-x-rays-chandra-observations

https://en.wikipedia.org/wiki/BLC1

https://en.wikipedia.org/wiki/Wow!_signal