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

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

Professor Brianna Heazlewood, from the University of Liverpool’s Department of Physics, has been named as a finalist in the ...

From helping catalyze interstellar reactions and fueling the birth of stars to its presence in neighborhood gas giants like ...

In this series, we cover provocative questions in astronomy. This week: the mysterious extragalactic signals known as Fast ...

In the vast expanse of space, where stars are born and planets take shape, one molecule plays a crucial role in interstellar ...

Now, in a new paper appearing in Nature Communications, Michigan State researchers Piotr Piecuch and Marcos Dantus and their groups and collaborators have provided unprecedented insights into the ...

National Black History Month, we remember an essential part of our national history. It’s one that includes the racism that ...

You would have to flip 75 heads in a row on a fair coin to have the same probability of a single neutrino interacting with a ...

Recent research on lightweight particles called neutrinos might have passed you by - much like the more than 10 trillion neutrinos passing through ...

Cosmochemist Professor Frank Brenker shows three grains of a meteorite that the Goethe University team used to test research methods in advance. The quantity and type corresponded to the material ...

State Key Laboratory for Structural Chemistry of Unstable and Stable Species, Chinese Academy of Sciences Research/Education Center for Excellence in Molecular Sciences, Institute of Chemistry, ...