Symmetry has been considered an unshakable property in physics, but strange quark behavior caused it to fail in a scientific ...

Scientists have successfully relocated protons outside of an antimatter laboratory with the help of an autonomous, open Penning trap. This breakthrough marks a significant step toward transporting ...

The BASE team’s solution was to develop a device that can transport trapped antiprotons on a truck for substantial distances. It is this device, known as BASE-STEP (for Symmetry Tests in Experiments ...

From the powdered wings of a butterfly to the icy spines of a snowflake, symmetry is a common feature in nature. This often ...

After this, the hydrogen bomb or thermonuclear ... In this process, the nucleus of an atom is split into smaller parts, which typically produces free neutrons and photons, and releases a massive ...

Hydrogen is ... grew by capturing more neutrons. When they captured too many, they became unstable. Then some of the neutrons inside them turned into protons and electrons. The electrons shot ...

Scientists have produced one of the most neutron-rich isotopes, hydrogen-6 ... physics is how many neutrons can be bound in an atomic nucleus with a given number of protons.

Limits of nuclear structure in extremely neutron-rich systems One of the most fundamental questions in nuclear physics is how many neutrons ... of protons. For the fundamental isotope hydrogen ...

Yusuf Hamied Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, U.K. Cavendish Laboratory, Department of Physics, University of Cambridge, Cambridge CB3 0HE, U.K.

By understanding how they interact with neutrons and protons, astrophysicists can also gain a better grasp of the intensely strange physics believed to occur inside the heart of neutron stars.

In the second scenario, a hydrogen atom floating in space collided with another hydrogen atom that was attached to the fullerene. The researchers found that the two hydrogen atoms would bond ...