Although the antimatter qubit won't find use in quantum computing, it will be used to test the differences between matter and ...

Usually, to feel the influence of a magnetic field, a particle would have to pass through it. But in 1959, physicists Yakir Aharonov and David Bohm predicted that, in a specific scenario, the ...

This early prototype was just 10 cm wide, but Lawrence’s innovation was so impactful that it earned him the 1939 Nobel Prize ...

A cyclotron is a type of particle accelerator. It uses magnetic and electric fields to speed up charged particles like protons or ions to very high speeds. This allows the particles to collide with ...

Harnessing strongest magnetic fields in universe could reveal elusive particle Date: February 2, 2022 Source: University of Nottingham Summary: Finding an elusive elementary particle is more ...

It won’t make its way into quantum computers, but it could help us understand why the universe is filled with matter.

The first antimatter qubit will help search for differences between matter and antimatter ...

Now, scientists hope theoretical advances such as Liu’s will lead to models of magnetic reconnection that more accurately reflect nature. But while his theory aims to settle the reconnection-rate ...

Researchers have discovered a new particle that is a magnetic relative of the Higgs boson. Whereas the discovery of the Higgs boson required the tremendous particle-accelerating power of the Large ...