The team—the White brothers, twin physicists at Queen Mary, University of London and the University of Adelaide in Australia, ...

Queen Mary University of London physicist Professor Chris White, along with his twin brother Professor Martin White from the ...

Scientists theorize there could be subatomic particles we have yet to discover. Here are five of the weirdest, rarest ...

Neutron stars are so named because in the simplest of models they are made of neutrons. They form when the core of a large ...

For the first time, scientists have successfully observed top quarks, ultrafast and unstable fundamental particles created in ...

This book describes the development of our understanding of the strong interactions in particle physics, through its competing ideas and personalities, its false starts, blind alleys, and moments of ...

Scientists at CERN's ALICE detector are replicating conditions found during the Big Bang, attempting to get to the bottom of ...

At the bottom of the chart are the fundamental particles—quarks, bosons (eg Higgs, w +, w -, z ), protons, neutrons, ...

Technologies, Vol. 12, Issue. 5, p. 64. This book introduces the lattice approach to quantum field theory. The spectacular successes of this technique include compelling evidence that exchange of ...

On this year's holiday book special, we hear from authors about books that dig up treasures in ancient ice, unveil the ...

CBC’s Quirks & Quarks is an award-winning radio science program. The program is heard by a national audience in Canada of nearly 800,000 people, and by thousands more around the world on our ...

A brotherly research duo has discovered that when the Large Hadron Collider (LHC) produces top quarks -- the heaviest known fundamental particles -- it regularly creates a property known as magic.