Inside the Large Hadron Collider, protons slam together at nearly the speed of light, creating a brief fireball of quarks and ...

The particle in question, known as a sterile neutrino, was supposed to only interact with gravity and have zero interactions ...

In the future, quantum computers are anticipated to solve problems once thought unsolvable, from predicting the course of ...

Nearly everything in the universe is made of mysterious dark matter and dark energy, yet we can’t see either of them directly ...

Scientists build ultra-sensitive detectors to study dark matter and dark energy, which make up most of the universe but remain unseen and poorly understood ...

In high-intensity laser–matter interactions, including laser-induced particle acceleration, physicists generally want to work ...

Shock wave dynamics and particle interaction constitute a rapidly evolving field that bridges high-speed fluid dynamics with particulate matter behaviour in a variety of industrial and natural ...

Physicists are exploring whether hidden dimensions and the shape of space could help explain why fundamental particles have ...

Particle and nuclear physics evokes evokes images of huge accelerators probing the extremes of matter. But in this round-up ...

Somehow, neutrinos went from just another random particle to becoming tiny monsters that require multi-billion-dollar facilities to understand. And there’s just enough mystery surrounding them that we ...

A team of scientists finds a way to evaluate highly complex Feynman integrals. How does the world look like at the smallest scales? This is a question scientists are trying to answer in particle ...