The Cassiopeia A supernova remnant reveals that massive exploding stars can forge far more of life's essential ingredients ...

Han and colleagues found that UV light at a wavelength of 185 nm has enough energy to break the bonds in CO 2 and methane and ...

New simulations of Milky Way-like galaxies reveal that the strange split between two chemically distinct groups of stars may ...

A “miracle cure” meets real science — and the results are alarming. Miracle Mineral Solution, or MMS, has long been promoted ...

Clues about how galaxies like our Milky Way form and evolve and why their stars show surprising chemical patterns have been ...

Electrons can be elusive, but Cornell researchers using a new computational method can now account for where they go—or don't ...

This December's dazzling display comes from a strange asteroid with comet-like behavior—and a tail of debris that astronomers ...

New simulations reveal that the Milky Way’s odd split between two chemically distinct groups of stars isn’t a universal ...

XRISM’s high-precision X-ray data revealed unusually strong signatures of chlorine and potassium inside the Cassiopeia A supernova remnant. These levels are far higher than theoretical models ...

Studying samples from the Bennu asteroid, researchers have found sugars essential for biology, stardust and ... something ...

Researchers find that cosmic dust acts as a catalyst, helping simple space gases form key molecules that may jump-start ...

Susumu Kitagawa, Richard Robson and Omar M. Yaghi were awarded the Nobel Prize in Chemistry for developing a new form of molecular architecture called metal-organic frameworks that can harvest water ...