Skip to main content
  1. Home
  2. Space
  3. News

James Webb dives into the heart of the Milky Way to study star formation

Add as a preferred source on Google
An image of the Milky Way captured by the MeerKAT radio telescope array puts the James Webb Space Telescope’s image of the Sagittarius C region in context. The MeerKAT image spans 1,000 light-years, while the Webb image covers 44 light-years.
An image of the Milky Way captured by the MeerKAT radio telescope array puts the James Webb Space Telescope’s image of the Sagittarius C region in context. The MeerKAT image spans 1,000 light-years, while the Webb image covers 44 light-years. NASA, ESA, CSA, STScI, SARAO, Samuel Crowe (UVA), John Bally (CU), Ruben Fedriani (IAA-CSIC), Ian Heywood (Oxford)

Deep in the heart of the Milky Way lies a bustling region near to the galaxy’s supermassive black hole, where stars are born. But something strange is happening there: the rate of star formation is lower than it seems like it should be. With thick clouds of dust and gas, the Sagittarius C region should be bursting with new baby stars, but instead there are relatively few new stars formed there. And now, research using the James Webb Space Telescope is revealing why.

Webb first observed the region called Sagittarius C in 2023. Now researchers are now using those observations to study star formation in the wider area around the center of the Milky Way, known as the Central Molecular Zone.

Recommended Videos

“A big question in the Central Molecular Zone of our galaxy has been, if there is so much dense gas and cosmic dust here, and we know that stars form in such clouds, why are so few stars born here?” said researcher John Bally of the University of Colorado Boulder. “Now, for the first time, we are seeing directly that strong magnetic fields may play an important role in suppressing star formation, even at small scales.”

The forces at play in the region are captured in the image above, which uses data from a radio telescope called MeerKAT and shows filaments of hot gas that are shaped by magnetic fields. In the image, you can see the supermassive black hole known as Sagittarius A* as the bright yellow blob at the very center. This enormous monster with a mass four million times that of the sun feeds on dust and gas which swirl around it, and as the material swirls it heats up due to friction and glows — making it visible even though the black hole itself swallows all light.

All of this mass creates magnetic fields which are amplified by the movements of gas swirling around the black hole, and these fields are shaping the gas in the region and preventing it from spreading out. The reason that few stars are being born seems to be that the magnetic fields act against the gravitational forces which collapse clouds of dust and gas to form new stars.

“We were definitely not expecting those filaments,” said fellow researcher Rubén Fedriani of the Instituto de Astrofísica de Andalucía in Spain. “It was a completely serendipitous discovery.”

The research is published in The Astrophysical Journal.

Georgina Torbet
Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…
You can now walk through space and gaze into a black hole at this VR exhibit
Smithsonian Starstruck lets you drift past dying stars and see the origin point of the universe for as little as $18 a person.
Smithsonian Starstruck featured

Most planetarium shows ask you to sit still and look up. The Smithsonian's new VR exhibit takes a different approach, letting visitors walk through the vast expanse of the universe, drifting past stars, planets, and a black hole to get a physical sense of its true scale.

A $29 ticket to the edge of the galaxy

Read more
Scientists warn Elon Musk’s orbital data centers could blind Earth’s biggest telescopes
A new ESO study suggests millions of satellites could make parts of the night sky effectively unusable for astronomy.
One hour of satellites over the northern Atacama Desert in Chile (October 2025)

The race to blanket Earth with satellite internet has unlocked faster connectivity for millions. But according to the European Southern Observatory (ESO), it could also make one of humanity's oldest hobbies, and one of its most important sciences, a whole lot harder. The organization warns that the rapid growth of satellite mega-constellations could severely disrupt observations made by some of the world's most powerful telescopes.

Astronomers say the night sky is reaching its limit

Read more
Amazon’s Starlink rival just crossed a major milestone, but don’t expect perfect internet just yet
Amazon finally showed up to the space internet party
Amazon Leo satellite layout across all launch vehicles

Amazon has taken a significant step toward launching its long-awaited satellite internet service. Following its latest rocket launch, the company now has 396 Project Kuiper satellites in low-Earth orbit, enough to begin offering continuous service across select regions. The milestone keeps Amazon on track for its previously announced goal of launching commercial service by mid-2026.

https://twitter.com/Weber44Chris/status/2072575499461963938?ref_src=twsrc%5Etfw%7Ctwcamp%5Etweetembed%7Ctwterm%5E2072575499461963938%7Ctwgr%5Ed727a1b853cbf519585e7bf2655943afb2f91bb8%7Ctwcon%5Es1_&ref_url=https%3A%2F%2Fwww.theverge.com%2Fscience%2F960563%2Famazon-leo-service-tipping-point

Read more