“It’s the dawn of a new era of black hole physics,” the Event Horizon Telescope team said as it released the first-ever image of supermassive black hole in the center of the Milky Way. EHT Collaboration hide caption
“It’s the dawn of a new era of black hole physics,” the Event Horizon Telescope team said as it released the first-ever image of supermassive black hole in the center of the Milky Way.
For years, the supermassive black hole in the dark center of the Milky Way galaxy has been theorized about and studied — and finally, it’s been captured in an image.
“We finally have the first look at our Milky Way black hole, Sagittarius A*,” an international team of astrophysicists and researchers from the Event Horizon Telescope team announced on Thursday.
“It’s the dawn of a new era of black hole physics,” it added.
The black hole is often referred to as Sgr A*, pronounced sadge ay star. Its mass is about 4 million times that of the sun, and it’s about 27,000 light years from Earth, according to MIT.
Black holes have long been a source of public fascination, but they also pose notorious challenges to researchers, mainly because their gravitational fields are so strong that they either bend light or prevent it from escaping entirely. But scientists have been able to detect and study them based on the powerful effects they exert on their surroundings.
In the case of Sgr A*, scientists have previously observed stars orbiting around the Milky Way’s center. Now they have a direct view of what Feryal Özel, a professor of astronomy and physics at the University of Arizona, called the “gentle giant” itself.
Putting the size of the black hole into an Earthling’s perspective, the team said that seeing it from the surface of our planet would be like trying to spot a donut on the moon.
“What made it extra challenging was the dynamic environment of Sgr A*, a source that burbled then gurgled as we looked at it,” Özel said, “and the challenges of looking not only through our own atmosphere, but also through the gas clouds in the disk of our galaxy towards the center. It took several years to refine our image and confirm what we had, but we prevailed.”
More than 300 researchers collaborated on the effort to capture the image, compiling information from radio observatories around the world. To obtain the image, scientists used observations from April 2017, when all eight observatories were pointed at the black hole.
“Although we cannot see the black hole itself, because it is completely dark, glowing gas around it reveals a telltale signature: a dark central region (called a ‘shadow’) surrounded by a bright ring-like structure,” the EHT team said in its announcement.
The researchers announced the news Thursday morning at the National Press Club in Washington, D.C., but it was simultaneously released around the world, in a series of news conferences held in Mexico City, Shanghai, Tokyo, and other cities.
“We were stunned by how well the size of the ring agreed with predictions from Einstein’s Theory of General Relativity,” said EHT Project Scientist Geoffrey Bower, from the Institute of Astronomy and Astrophysics at the Academia Sinica in Taipei.
The discovery comes three years after the Event Horizon Telescope Collaboration released the first-ever image of a black hole — but that work focused on the center of galaxy Messier 87, tens of millions of light-years away from Earth in the Virgo cluster of galaxies.
Commenting on the similarities of the two images, of a dark shadow surrounded by a bright ring, Özel stated, “It seems that black holes like donuts.”
Still, she said, the two black holes are very different from one another — for one thing, the Milky Way’s black hole isn’t as voracious.
“The one in M87 is accumulating matter at a significantly faster rate than Sgr A*,” she said. “Perhaps more importantly, the one in M87 launches a powerful jet that extends as far as the edge of that galaxy. Our black hole does not.”