The collisions will happen under enough heat and pressure to melt protons and neutrons and release their components (quarks ...

Researchers at Chalmers University of Technology in Sweden discovered a new phenomenon that changes what we know about ...

Explore ETH Zurich’s cutting-edge experiments on fundamental forces and dark matter. Click to read the full story now ...

Scientists are using trapped ions in cutting-edge experiments to hunt for signs of an undiscovered particle that might help ...

The invisible dark matter is one of the universe's biggest mysteries, and its existence is confirmed only by the ...

Scientists are using trapped ions in experiments to search for signs of a new particle that could help explain the mysterious ...

A machine learning approach leverages nuclear microreactor symmetry to reduce training time when modeling power output ...

An atom consists of a heavy center, called the nucleus, made of particles called protons and neutrons. An atom has lighter particles called electrons that you can think of as orbiting around the ...

A Yukawa particle is the hypothesized mediator of a possible force within the cores of atoms. If it exists, it would have a subtle influence on how particles making up an atom's nucleus interact with ...

Explore the fundamental components of an atom: protons, neutrons, and electrons. This video discusses why the traditional model of the atom is inaccurate, highlighting the unpredictable nature of ...

Why matter dominates over antimatter in our universe has long been a major cosmic mystery to physicists. A new finding by the world's largest particle collider has revealed a clue.