Study identifies forming stars whose jets accelerate protons and emit gamma rays, revealing a new cosmic-ray source and ...

NAOJ ATERUI III simulations show magnetic fields strip angular momentum from forming protostar pairs at up to 0.7 percent per orbital period, explaining why binary systems form fast enough to match ...

A star is born — literally. An incredible image from the James Webb Space Telescope is providing new clues about how stars come into existence. The awe-inspiring snap shows protostar HH 212, located ...

Astronomers have gained insights into star formation by capturing the first spatially resolved detection of protostellar outflows and jets in the Milky Way's outer region. The research is published in ...

Massive stars can form via accretion disks even in the Milky Ways harsh center, showing disk-driven growth works across ...

A stunning corner of the cosmos was recently revealed by the James Webb Space Telescope, and astronomers think the find will unveil more about the mysteries of both star and planet formation. Hiding ...

Star formation unfolds within the cold, dense regions of molecular clouds, vast accumulations of gas and dust that permeate galactic discs. Turbulent motions and magnetic fields within these clouds ...

Protostellar jets were detected for the first time using ALMA in the Milky Way’s outer region, showing that star formation works similarly in distant, low-metallicity regions, whereas the chemistry ...