Scientists at Tel Aviv University have developed a new way to investigate dark matter by studying faint radio waves from the Universe’s earliest era, known as the cosmic dark ages. Their research ...

Researchers propose that hydrogen gas from the early Universe emitted detectable radio waves influenced by dark matter.

A gamma ray glow at our galaxy’s center has puzzled scientists for almost two decades. New computer simulations back the ...

A groundbreaking study from the University of York has proposed a revolutionary concept: dark matter, the elusive substance ...

Dark matter has two central properties: it has mass like regular matter, and unlike regular matter, it reacts weakly or not at all with light. Neutrinos satisfy these two criteria, but neutrinos move ...

In a significant stride towards understanding the universe’s elusive dark matter, scientists have potentially identified the ...

A new research effort involving simulations of Milky-Way-like galaxies shows that the mysterious, unexplained extra gamma ...

ScientiFix, our weekly feature, offers you a summary of the top global science stories of the week, with links to their ...

Despite it’s comparative size to our star, it’s still the least massive object ever detected using gravitational lensing.

Science still faces mysteries like dark matter, consciousness, and the origin of life—questions that challenge researchers and push the limits of understanding.

An excess of gamma rays in the center of our galaxy could mean scientists have finally detected dark matter particles—or not ...

Astrophysicists at the University of Chicago have developed physics-based models suggesting that dark energy could be changing over time. Dark energy, the mysterious force causing the universe to ...