"History shows us that whenever you do open a new 'energy window,' you never really know what you're going to find. It's completely unexplored." ...

For context, the most powerful particle accelerator on Earth, the Large Hadron Collider, accelerates protons to an energy of 7 Tera-electronVolts (TeV). The neutrino that was detected had an energy of ...

Particle detectors play a crucial role in our understanding of the fundamental building blocks of the universe. They allow ...

A new study led by Rice University materials scientist Lane Martin sheds light on how the extreme miniaturization of thin ...

By introducing a new value-added process, NGX aims to produce finer-sized spherical graphite (D50: 10.7 microns) from low-value fines material, increasing yield and improving the potential economics ...

A compact method of detecting neutrinos provides new tests of physics theories and could lead to new reactor-monitoring methods.

Matter can be both wave and particle. If you take the particle route, these subatomic particles are what you could say the universe and everything in it is made of. There are many ways to further ...

"For decades, we've had a traditional view of the proton as a collection of quarks and gluons, and we've been focused on understanding so-called single-particle properties, including how quarks ...