Dark matter makes up about 85 percent of all matter in the universe. It neither emits nor absorbs light, making it invisible ...

The simulation of strongly interacting many-body systems is a key objective of quantum physics research, as it can help to ...

A crystal’s beauty comes from how perfectly its atoms line up in space. In 2012, Nobel Prize–winning physicist Frank Wilczek ...

If you’re reading this column Sunday morning, I’m currently on the road headed north to the University of Vermont to watch my ...

A European research consortium is exploring a new quantum imaging technique that could one day help clinicians see the ...

Physicists found signs of a key shift in nuclear matter, a potential "tipping point." The study narrows where the strong ...

Why do so many turn to quantum physics to explain mystical experiences? This post explores how Quantum Field Theory has ...

He and a colleague created a sensation in 1956 by proposing that one of the four forces of nature might violate a law of ...

Physicists have tried so many different ways to find dark matter, but none has been successful. Now an unexpected contender ...

According to the researchers, Carnot determined the maximum efficiency of heat engines. He developed his principle, the ...

Dark matter is a fundamental hypothesis when it comes to our understanding of the universe, but it remains a hypothesis. We ...

A glittering hunk of crystal gets its iridescence from a highly regular atomic structure. Frank Wilczek, the 2012 Nobel ...