Researchers at MSU found that H₃⁺ can form in unexpected ways. They studied molecules hit by high-energy light.

Stars form in regions of space known as stellar nurseries, where high concentrations of gas and dust coalesce to form a baby ...

NASA is set to launch SPHEREx, a groundbreaking telescope that will create the most precise and colorful map of the universe.

New evidence suggests that conditions in the early universe may have shaped star formation in surprising ways.

H3+, known as "the molecule that made the universe," plays a crucial role in interstellar chemistry and the birth of stars.

In 2007, astronomers discovered the Cosmic Horseshoe, a gravitationally lensed system of galaxies about 5.5 billion ...

An international research team, including the University of Geneva (UNIGE), has for the first time used numerical simulations ...

Stars form in wide regions in space known as stellar nurseries, where dust and gas come together to give birth to new stars ...

A cosmic filament, 3 million light-years long, has been directly imaged for the first time — offering a new glimpse into the ...

Stars form in Giant Molecular Clouds (GMCs), vast clouds of mostly hydrogen that can span tens of light years. These stellar ...

New data reveals a 3-million-light-year filament connecting two galaxies, each of which hosts a supermassive black hole.

These results could provide new insights into the formation of stars in the universe. Stars form in regions of space known as stellar nurseries, where high concentrations of gas and dust coalesce ...