By tracking how the stellar winds bent the jets in a nearby system, the researchers were able to directly calculate their strength.
(CN) – Jets exploding from a black hole can carry the energy of about 10,000 Suns, researchers say, in one of the clearest measurements yet of how black holes shape their environment.
In one study published On Thursday in Nature Astronomy, an international team led by Curtin University analyzed the well-known black hole system Cygnus X-1, one of the first ever confirmed. The system includes a black hole paired with a massive star whose powerful winds propel the jets flowing from the black hole.
As the two objects orbit each other, those winds bend and deflect the jets, creating what researchers describe as “dancing jets.”
This move gave scientists a rare opportunity to measure their power.
Using an array of radio telescopes spanning Earth, the team tracked how much the jets were pushed by the star’s winds.
By comparing the force of the wind with the degree of deflection, they were able to directly calculate the power of the aircraft, something that has long been difficult to measure.
Lead author Steve Prabu said the motion helped reveal how energy flows away from black holes.
“A key finding from this research is that about 10% of the energy released when matter falls toward the black hole is picked up by the jets,” Prabu said in a press release. “This is what scientists commonly assume in large-scale simulated models of the Universe, but it has been difficult to confirm observationally until now.”
The researchers also measured the jets’ speed at roughly half the speed of light, or about 150,000 kilometers per second, another value that has been challenging to determine.
Black holes are often described as objects that pull everything inward, but they also send energy outward through these jets. This process can affect how gas moves, how stars form, and how galaxies evolve.
Until now, most estimates of jet power relied on long-term averages, sometimes spanning thousands or even millions of years.
This made it difficult to compare with the energy released in real time when matter falls into a black hole.
Co-author and Professor James Miller-Jones said the new measurement provides a clearer benchmark.
“And because our theories suggest that the physics around black holes is very similar, we can now use this measurement to anchor our understanding of jets, whether they are from black holes 10 or 10 million times the mass of the Sun,” he said in the press release.
The findings could help guide future observations as new telescope projects come online, including the Square Kilometer Array Observatory under construction in Western Australia and South Africa.
Researchers say having a reliable way to measure the power of jets will be essential as scientists begin to detect jets from black holes in millions of distant galaxies.
“Black hole galaxies provide an important source of feedback on the surrounding environment and are critical to understanding the evolution of galaxies,” Miller-Jones said.
Subscribe to our free newsletters
Our weekly newsletter Closing arguments provides the latest on ongoing trials, major litigation and decisions in courts around the US and the world, while monthly Under the lights feeds legal dirt from Hollywood, sports, Big Tech and the arts.
