The images of the AB Aurigae system showing the disc around it. The image on the right is a zoomed-in version of the area indicated by a red square on the image on the left. It shows the inner region of the disc, including the very-bright-yellow ‘twist’ (circled in white) that scientists believe marks the spot where a planet is forming. This twist lies at about the same distance from the AB Aurigae star as Neptune from the Sun. The blue circle represents the size of the orbit of Neptune. The images were obtained with the SPHERE instrument on ESO’s Very Large Telescope in polarised light.

Scientists have gained a very important finding about the formation of long-studied planets. The images obtained for the first time show the birth of a baby planet.

Scientists have acquired new images that may be the first evidence of the birth of a baby planet. Images can help us understand how thousands of exoplanets scattered throughout the universe emerged by allowing them to follow the process of the birth of a new planet.

Observations with the Very Large Telescope (VLT) at the European Southern Observatory show a dense rotating dust and gas disc. In it, a spiral structure that can be an indicator of the formation of a new planet stands out. Although the researchers know that the planets were born as dusty discs surrounding young stars, new observations provide detailed information about this process.

Scientists are one step closer to understanding how planets form

The new images show the dust and gas spiral around AB Aurigae, a star 520 light years away. These spirals are interpreted as an indicator of the birth of baby planets. As the planet revolves around its star, the dust turns into a spiral arm shape.

Anne Sprey, co-author of the study from the Bordeaux Astrophysics Laboratory, said, “The spiral image was an expected result from some theoretical models of planet formation. It corresponds to the connection of two spirals, one that joins where the planet is located, one expanding inward from the orbit of the planet. it allows the dust to hit and grow on the planet, “he said. The images obtained will provide a closer look at the formation process of a newborn planet, shedding light on the formation of the planets.

LEAVE A REPLY

Please enter your comment!
Please enter your name here