Mysterious dark matter makes up 85 percent of matter in the universe, and of the remaining 15 percent, scientists couldn’t ...

Star formation models, which rely on accurate chemical composition data ... are only a few percent more H₃⁺ molecules in the universe because of the small organic compounds we and others ...

On March 27 — 15 days after its launch — SPHEREx saw its first light, proving its instruments performed as designed. This ...

If you are studying the Extended syllabus, you will also need to know about the formation and life cycle ... All the naturally occurring elements in the Universe are produced by nuclear fusion ...

New research suggests that the largest cosmic structure is even bigger and closer to Earth than we knew. It goes against ...

This could change our current understanding of how galaxies evolve, the processes that shape them and how we measure star formation throughout the universe's history. "The existence of these ...

"The new model can account for both structure formation and stability, and the key observational properties of the expansion of the universe at large." A new model of the cosmos does away with the ...

Exoplanet super-Earths are more prevalent in the universe than earlier research predicated according to international ...

They are by far the most abundant elements, formed in the early moments of the universe. But our star ... Because of this, the origin of its chemical composition is difficult to trace accurately.

At the heart of SPHEREx lies cutting-edge technology designed to capture the full spectrum of infrared light. Unlike traditional telescopes, SPHEREx employs six advanced detectors, each specializing ...

"SPT2349-56 is a system so extraordinary that we may have caught one of the most massive clusters under formation at a very ... we see in the present-day universe. Fully grown galaxy clusters ...