Hubble, U-M Astronomers Pioneer Study of Massive Stars
July 26, 2023
July 26, 2023
ANN ARBOR, Michigan, July 26 -- The University of Michigan issued the following news release:
As soon as the first stars in the early universe were born, metal elements began forming. As the universe has evolved, metal content in the universe has grown, driven by stellar winds and supernova explosions from massive stars.
It has become clear over recent decades that the amount of metallic elements, or metallicity, changes the fundamental physical properties of stars, inc . . .
As soon as the first stars in the early universe were born, metal elements began forming. As the universe has evolved, metal content in the universe has grown, driven by stellar winds and supernova explosions from massive stars.
It has become clear over recent decades that the amount of metallic elements, or metallicity, changes the fundamental physical properties of stars, inc . . .