Scientists spread across institutions in Bengaluru, Beijing (China), Mumbai, Ahmedabad and Nainital, in a collaborative work, have investigated how
trigger the formation of second-generation stars — stars molded from remnants of first-generation star formation activity — in HII regions, which are emission nebulae created when young, massive stars ionise nearby gas clouds with high-energy UV radiation.
the Indian Institute of Astrophysics
, Bengaluru, Aryabhatta Research Institute of Observational Sciences (ARIES), Nainital, along with their collaborators from the Tata Institute of Fundamental Research, Mumbai,
Physical Research Laboratory
, Ahmedabad and Kavli Institute of Astronomy and Astrophysics, Beijing studying an HII region, called Sh2-112, found that the nebula and its environment created by a massive star 23 times more massive than our Sun, triggered the formation of second-generation stars at the periphery.
This study, which has been accepted for publication in the ‘Astrophysical Journal’ was conducted using Devasthal Fast Optical Telescope ARIES, 2-m Himalayan Chandra Telescope, Giant Metre-wave Radio Telescope (GMRT), among other instruments.
“The researchers found evidence for the interaction of the HII region with the left-over cloud material (from first-generation stars), triggering the formation of the next generation of stars for the first time,” the department of science and technology (DST) said.
The scientists observed a census of the young stellar and proto-stellar candidates populated toward the western boundary of the HII region. A young (compact/ultra-compact) HII region formed due to a star about 15 times more massive than the Sun was also found in that direction.
Stating that this can help trace the formation of massive stars at a much younger stage, researchers pointed out that for long, scientists have explored the possibility of inducing star formation in the environment of HII regions. Though several models have been proposed, it is still not clear if triggering is important in all star-forming regions (SFRs) and which triggering mode is efficient.