Read The Times Australia

Daily Bulletin

Using a detector the size of a galaxy, astronomers find strongest evidence yet for gravitational waves from supermassive black hole pairs

  • Written by: Daniel Reardon, Postdoctoral researcher in pulsar timing and gravitational waves, Swinburne University of Technology
Using a detector the size of a galaxy, astronomers find strongest evidence yet for gravitational waves from supermassive black hole pairs

When black holes and other enormously massive, dense objects whirl around one another, they send out ripples in space and time called gravitational waves. These waves are one of the few ways we have to study the enigmatic cosmic giants that create them.

Astronomers have observed the high-frequency “chirps” of colliding black holes, but the ultra-low-frequency rumble of supermassive black holes orbiting one another has proven harder to detect. For decades, we have been observing pulsars, a type of star that pulses like a lighthouse, in search of the faint rippling of these waves.

Today, pulsar research collaborations around the world – including ours, the Parkes Pulsar Timing Array – announced their strongest evidence yet for the existence of these waves.

What are gravitational waves?

In 1915, German-born physicist Albert Einstein presented a breakthrough insight into the nature of gravity: the general theory of relativity.

The theory describes the Universe as a four-dimensional “fabric” called spacetime that can stretch, squeeze, bend and twist. Massive objects distort this fabric to give rise to gravity.

A curious consequence of the theory is that the motion of massive objects should produce ripples in this fabric, called gravitational waves, which spread at the speed of light.

Read more: Explainer: gravity

It takes an enormous amount of energy to create the tiniest of these ripples. For this reason, Einstein was convinced gravitational waves would never be directly observed.

A century later, researchers from the LIGO and Virgo collaborations witnessed the collision of two black holes, which sent a burst of gravitational waves chirping throughout the Universe.

Now, seven years after this discovery, radio astronomers from Australia, China, Europe, India, and North America have found evidence for ultra-low-frequency gravitational waves.

A slow rumbling of gravitational waves

Unlike the sudden burst of gravitational waves reported in 2016, these ultra-low-frequency gravitational waves take years or even decades to oscillate.

They are expected to be produced by pairs of supermassive black holes, orbiting at the cores of distant galaxies throughout the Universe. To find these gravitational waves, scientists would need to construct a detector the size of a galaxy.

An illustration showing Earth, pulsars, and gravitational waves.
As gravitational waves warp spacetime around Earth, they distort the arrival times of radio waves from distant pulsars. OzGrav / Swinburne / Carl Knox

Or we can use pulsars, which are already spread across the galaxy, and whose pulses arrive at our telescopes with the regularity of precise clocks.

CSIRO’s Parkes radio telescope, Murriyang, has been observing an array of these pulsars for almost two decades. Our Parkes Pulsar Timing Array team is one of several collaborations around the world that have today announced hints of gravitational waves in their latest data sets.

Other collaborations in China (CPTA), Europe and India (EPTA and InPTA), and North America (NANOGrav) see similar signals.

The signal we are searching for is a random “ocean” of gravitational waves produced by all the pairs of supermassive black holes in the Universe.

Observing these waves is not only another triumph of Einstein’s theory, but has important consequences for our understanding of the history of galaxies in the Universe. Supermassive black holes are the engines at the heart of galaxies that feed on gas and regulate star formation.

The signal appears as a low-frequency rumble, common to all pulsars in the array. As the gravitational waves wash over Earth, they affect the apparent rotation rates of the pulsars.

The stretching and squeezing of our galaxy by these waves ultimately changes the distances to the pulsars by just tens of metres. That’s not much when the pulsars are typically about 1,000 light-years away (that’s about 10,000,000,000,000,000,000 metres).

Remarkably, we can observe these shifts in spacetime as nanosecond delays to the pulses, which radio astronomers can track with relative ease because pulsars are such stable natural clocks.

What has been announced?

Because the ultra-low-frequency gravitational waves take years to oscillate, the signal is expected to emerge slowly.

First, radio astronomers observed a common rumble in the pulsars, but its origin was unknown.

Now, the unique fingerprint of gravitational waves is beginning to appear as an attribute of this signal, observed by each of the pulsar timing array collaborations around the world.

Read more: When galaxies collide: the growth of supermassive black holes

This fingerprint describes a particular relationship between the similarity of pulse delays and the separation angle between pulsar pairs on the sky.

The relationship arises because spacetime at Earth is stretched, changing the distances to pulsars in a way that depends on their direction. Pulsars close together in the sky show a more similar signal than pulsars separated at right angles, for example.

CSIRO’s Parkes radio telescope, Murriyang. CSIRO / A. Cherney

The breakthrough has been enabled by improved technology at our observatories. The Parkes Pulsar Timing Array has the longest high-quality data set, thanks to the advanced receiver and signal processing technology installed on Murriyang. This technology has enabled the telescope to discover many of the best pulsars used by collaborations around the globe for the gravitational wave searches.

Earlier results from our collaboration and others showed the signal expected from gravitational waves was missing from pulsar observations.

Read more: Where are the missing gravitational waves?

Now, we seem to be seeing the signal with relative clarity. By segmenting our long data set into shorter “time-slices”, we show the signal appears to be growing with time. The underlying cause of this observation is unknown, but it may be that the gravitational waves are behaving unexpectedly.

The new evidence for ultra-low-frequency gravitational waves is exciting for astronomers. To confirm these signatures, the global collaborations will need to combine their data sets, which increases their sensitivity to gravitational waves many-fold.

Efforts to produce this combined data set are now in progress under the International Pulsar Timing Array project, whose members met in Port Douglas in Far North Queensland last week. Future observatories, like the Square Kilometre Array under construction in Australia and South Africa, will turn these studies into a rich source of knowledge about the history of our Universe.

Authors: Daniel Reardon, Postdoctoral researcher in pulsar timing and gravitational waves, Swinburne University of Technology

Read more https://theconversation.com/using-a-detector-the-size-of-a-galaxy-astronomers-find-strongest-evidence-yet-for-gravitational-waves-from-supermassive-black-hole-pairs-208484

Business News

Australian organisations are relying on business continuity plans built for a far more predictable world

Tariff escalations, supply chain fragility, geopolitical events, and the ongoing threat of cyber disruption have reshaped the risk environment facing Australian organisations. The problem is that ma...

Daily Bulletin - avatar Daily Bulletin

How to Rent a Car for Uber in Melbourne: What Every New Driver Needs to Know

Starting out as an Uber driver in Melbourne is not as complicated as it sounds but getting the vehicle right is where most new drivers get stuck. Uber has strict requirements around vehicle age, condi...

Daily Bulletin - avatar Daily Bulletin

When Should You Speak to a Lawyer About a Legal Issue?

Legal issues can begin with a simple question, then become harder to manage once formal steps are involved. Many people wait until a matter feels urgent before seeking guidance, even though earlier ...

Daily Bulletin - avatar Daily Bulletin

The strategic rise of Bali as Australia’s next essential healthcare support hub

As Australian healthcare providers grapple with unprecedented operational bottlenecks, a new nearshore model is quietly transforming patient care delivery. Forward-thinking organisations,  including...

Daily Bulletin - avatar Daily Bulletin

Cost Savings and Benefits of Using Used Pallets in Logistics

In today’s competitive logistics and supply chain industry, businesses are constantly looking for ways to reduce operational costs without compromising efficiency and reliability. One of the most prac...

Daily Bulletin - avatar Daily Bulletin

How Fulfilment Services in Australia Help Businesses Scale Efficiently

The growth of e-commerce and modern retail has transformed customer expectations. Consumers now expect fast shipping, accurate order processing, and seamless delivery experiences regardless of where...

Daily Bulletin - avatar Daily Bulletin

Practical Ways Australian Workplaces Can Reduce Operating Costs

Reducing business costs doesn’t always mean cutting staff, shrinking services or making the workplace feel bare-bones. In many cases, the smarter savings are hiding in everyday operations: the light...

Daily Bulletin - avatar Daily Bulletin

Executive Recruitment Solutions That Help Organisations Secure Exceptional Leaders

Leadership has a direct impact on organisational performance, employee engagement, strategic growth, and long-term success. Businesses operating in increasingly competitive environments require experi...

Daily Bulletin - avatar Daily Bulletin

Why A WooCommerce Website Designer Matters For Online Growth

Running an online store today requires more than simply listing products and waiting for customers to arrive. Businesses need a website that is fast, reliable, easy to navigate, and designed to suppor...

Daily Bulletin - avatar Daily Bulletin

The Daily Magazine

The Hidden Engineering Problem Inside Australia's Older Housing Stock

A significant share of Australian homes were built for a way of living that no longer exists. Houses...

DIY Rodent Control Vs Professional Help: When Is It Time To Call The Experts?

Rodents are one of the most frustrating pest problems for Australian property owners. Rats and mic...

Lighting Shop in Perth: How The Right Lighting Can Transform Your Home And Business

The right lighting can completely change the look, feel, and functionality of any space. Whether it ...

Traffic Light System Solutions For Safer And More Efficient Traffic Management

Modern cities and growing communities rely heavily on effective traffic management to ensure safety...

Gold Migration Lawyers in Liquidation: How the Closure Affects Your ART Appeal

If your appeal was with Gold Migration Lawyers, a recent change to how the Tribunal decides cases ...

The pressure cooker: life in urban Australia in 2026

Australian cities have always been demanding. Long commutes, rising housing costs, busy schedules a...

What Actually Makes a Good Criminal Lawyer in Melbourne

Most people only think about this question once. That is usually too late. Most people charged wi...

Why Working With A Chatswood Tutor Can Improve Academic Performance

Academic expectations continue increasing for students across primary school, high school, and senio...

Is It Worth Getting Solar Panels in Melbourne?

The real question is not whether solar works in Melbourne. It works. The question is what it is co...