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Deep space radio signal reaches Earth after 8 billion years
09-21-2024

Deep space radio signal reaches Earth after 8 billion years

Eric Ralls
ByEric Ralls
Earth.com staff writer

Recently, astronomers made an astonishing discovery -- a mysterious
and powerful burst of radio waves reached Earth after traveling
through space for 8 billion years. Dubbed FRB 20220610A, it is one of
the most distant and energetic radio signals ever observed.

Fast radio bursts (FRBs), including this particular one, are
extremely intense flashes of radio waves that last only milliseconds,
yet their origins remain a source of great intrigue and perplexity.
We still don't know what, or who, sends these energy bursts.

The nature of these signals challenges our understanding of the
universe, as they can originate from regions far beyond our Milky Way
galaxy, hinting at processes and events that we are only beginning to
comprehend.

Dr. Stuart Ryder, an esteemed astronomer at Macquarie University in
Australia, is among the dedicated team of scientists working
diligently to unravel the mysteries surrounding this cosmic enigma.

Through advanced technologies and collaborative efforts, they aim to
decode the origins and implications of these fast radio bursts,
potentially unlocking new insights into the fundamental workings of
our universe and the forces that shape it.

Understanding fast radio bursts (FRBs)

Fast radio bursts, or FRBs, are intense flashes of radio waves that
last for just milliseconds. They were first discovered in 2007, and
ever since, they have captured the curiosity and fascination of the
scientific community worldwide.

For instance, this recent FRB emitted energy equivalent to what our
sun produces over 30 years -- and all in less than a blink of an eye.

Researchers speculate that these cosmic events might be linked to
magnetars, the highly energetic remnants left behind by exploding
stars.

Astronomers deployed the Australian Square Kilometre Array Pathfinder
(ASKAP) to detect the burst and track down its origin.

"We used ASKAP's radio dishes to skillfully pinpoint where the burst
came from," says Dr. Ryder.

The reveal didn't end there. The team also located the source galaxy
using the European Southern Observatory's Very Large Telescope,
discovering it to be older and more distant than any other FRB source
found to date.

'Weighing' the universe with FRBs

Believe it or not, these fleeting cosmic fireworks could help us
'weigh' the universe. There's a discrepancy between the amount of
normal matter we can detect and what cosmologists theorize should
exist. Could the answer be outside our visual spectrum?

"More than half of the normal matter that should exist today is
missing," says Professor Ryan Shannon. He suggests that this
'missing' matter might be hiding in the vast spaces between galaxies,
where it's too hot and diffuse to see with conventional methods.

Enter FRBs. Their unique ability to 'sense' the ionized material in
nearly empty space allows scientists to measure the matter located
between galaxies.

This method, established in 2020 by the late Australian astronomer
Jean-Pierre Macquart, is now known as the Macquart relation.

"This detection confirms the Macquart relation, even for bursts
halfway across the known universe," adds Ryder.

New telescopes will soon join the search

Nearly 50 FRBs have been traced back to their origins, and about half
were discovered using the ASKAP telescope.

Despite the unknown causes of these enormous bursts, one thing is
certain: FRBs are common events in the cosmos and have enormous
potential for advancing our understanding of the universe.

Professor Shannon believes that future radio telescopes, currently
under construction, will detect thousands more FRBs.

"FRBs are common and hold great promise," he says. "We could use them
to create a new map of the universe's structure and answer big
questions about cosmology."

Missing matter mystery

The universe is enormous, and much of it still baffles us, especially
the disparity between observable and theoretical matter.

This "missing matter" refers to a significant amount that should be
there according to our current models of cosmic evolution but hasn't
been seen.

It turns out that visible matter -- like stars, planets, and galaxies
-- makes up only about 5% of the universe's total mass-energy content.
The other 95% is thought to be dark matter and dark energy, which we
can't directly detect. This gap raises some big questions about how
the universe is structured and behaves.

Researchers think that this missing matter might exist in forms that
are hard to spot, like hydrogen gas floating in the intergalactic
medium.

Recent studies with advanced telescopes have started to find these
elusive hydrogen clouds, suggesting that a significant chunk of the
universe's matter could be hiding in this diffuse state.

Figuring out what this missing matter is and where it's located is
key to getting a complete picture of cosmic evolution and fine-tuning
our models of how the universe works.

Fortunately, the discovery of FRBs and their ability to trace hidden
matter could revolutionize how we understand the cosmos. As Professor
Shannon points out, even in nearly empty space, FRBs can 'see'
electrons and measure the matter present.

Exciting future of FRB research

With more advanced radio telescopes on the horizon, the future of FRB
research is looking bright. Each new detection brings us closer to
unveiling the secrets of these powerful cosmic events.

Beyond mapping the universe's structure, FRBs could guide us to
fundamental questions about the inner workings of the universe --
aligning us closer with the cosmic forces and events that shape our
cosmos.

Despite our growing knowledge base, FRBs remain one of the universe's
great mysteries. As researchers venture deeper into the study of
these cosmic flashes, one thing becomes clear: we still know very
little about the universe in which we live.

The full study was published in the journal Science.

---

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---

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