A new study led by UNLV scientists sheds light on how planets, including Earth, formed in our galaxy—and why the life and ...

Astronomers studying how elements heavier than iron were produced in the early Milky Way have identified a distinct series of epochs of galaxy-wide chemical formation. This evolutionary timeline, ...

Among the billions of stars that populate the cosmos, some retain the chemical signature of ancient times, long before heavy ...

A recent study by UNLV and Open University of Israel scientists reveals how the timing of planet formation influences its ...

Astronomers have discovered a surprisingly "pristine" red giant with the lowest concentration of heavy elements ever seen in ...

How heavy can an element be? An international team of researchers has found that ancient stars were capable of producing elements with atomic masses greater than 260, heavier than any element on the ...

Astronomers from The University of Western Australia’s node of the International Centre for Radio Astronomy Research (ICRAR) have developed a new way to study star formation in galaxies from the dawn ...

Stellar size and class diversification originates from the initial mass of the molecular cloud from which stars form. The elemental composition of the molecular cloud, specifically the abundance of ...

In a new study, astronomers report novel evidence regarding the limits of planet formation, finding that after a certain point, planets larger than Earth have difficulty forming near low-metallicity ...

The discovery of ancient water in a planet-forming disk reveals that some of the water found in comets—and maybe even ...