Learn why the neutrino detector aims to capture elusive particles, hoping to reveal why the universe is the way it is.

Highly charged heavy ions form a very suitable experimental field for investigating quantum electrodynamics (QED), the ...

The NA61/SHINE collaboration have observed a strikingly large imbalance between charged and neutral kaons in argon–scandium ...

Advances in real-time MS analysis of ambient air have transformed AQM, providing a mechanism to detect and enforce air ...

The team found these shock waves to be among nature’s most powerful particle accelerators. These shock waves are born in plasma — a gas of charged particles that can conduct electricity and ...

Each cube is made of plastic scintillator (PS) material that emits light when a charged particle passes through it. Neutrinos carry no charge, as their name indicates, but they sometimes interact ...

Revolutionising Antibacterial Coatings with Plasma Technology It is based on argon plasma grafting technology, whereby this technique can activate biomaterials for the exact immobilisation of AgNPs.

This is a JVM binding for Argon2. "Being a binding" means that it uses JNA to call a native C library. The advantage of this approach is that this uses the original implementation of the Argon2 ...

A deformed, rotating nucleus is illuminated in increasing resolution at higher energy stages, from left to right. Credit: Güneş Özcan/ORNL, U.S. Dept. of Energy Using the Frontier supercomputer, ...