In the process of discovering to shed light on cosmic evolution, life and death on planets, astronomers have discovered a record number of gravitational waves.
An international team of scientists has made 35 new observations of gravitational waves, bringing the total number of detections since 2015 to 90. Gravitational waves are undulating fluctuations caused by the curvature of a structure. space-time, created by large astronomical events such as the collision between pairs of black holes – billions of light-years away from our Earth.
The first detection of gravitational waves, published in 2016, proved the prediction Albert Einstein made a century ago was correct based on his theory of relativity.
Monash University researcher Shanika Galaudage, an Australian branch collaborator on the OzGrav project, describes gravitational waves as a “new window into the universe”, whose mission could change “the game”. “.
“Gravitation waves are not electromagnetic light. We can see things that are not visible, such as the merger of binary black holes,” Galaudage said.Of the 35 new discoveries, 32 are evaluated as the result of merging black hole pairs. Other notable discoveries include two pairs of giant black holes orbiting each other – one is 145 times the mass of the Sun and the other 112 times heavier. The scientists also discovered a pair of “lighter” black holes with a total mass just 18 times that of the Sun.Two of the 35 discoveries are thought to originate from a neutron star merging with a black hole. Research associate Professor Susan Scott, of the Australian National University, said that neutron stars are small but extremely dense objects: despite being about 1.4 times the mass of the Sun. , but they are about the size of a city, with a radius of approximately 15 km. The series of discoveries has helped scientists understand both the evolution of the universe and the nature of stars, said Scott.
Ms. Scott said the number of recent discoveries has increased 10 times compared to the time when the Ligo and Virgo projects were first launched to observe gravitational waves. She attributes this increase to changes in specialized devices, such as improvements in laser power.“After improving the detectors to become more sensitive, we will be able to see all the binary black hole pairs merging in the entire universe,” said Ms. Scott. Neutron stars when they collide do not produce gravitational waves as strong as black holes because they are not as dense, and therefore, we cannot see them from a distance.”
In the future, astronomers may also be able to detect gravitational waves from stars as they become supernovas. “This will help us understand how stars form as they end their life cycles and run out of fuel, explode and then collapse,” said Scott.
However, some new findings are still unanswered mysteries. The researchers believe that the 35th event could be a pair of black holes or a merger between a black hole and a neutron star. The lighter object in this case has a mass greater than normal for a neutron star, but less than the mass of a black hole.