A machine which accelerates tiny pieces of matter, i.e. particles, to bring them up to very high energies.
For every particle of matter, there is a particle of antimatter which is almost identical, except that it has an opposite electrical charge.
An atom is a component of matter. It is made up of a nucleus surrounded by a cloud of electrons. The nucleus is composed of protons and neutrons, themselves made up of three quarks each.
The phenomenon at the origin of our Universe, 13.7 billion years ago. We can think of it as an extremely dense and hot point which experienced a sudden and gigantic expansion.
A particle which physicists are hunting for. Particles acquire their mass by the Brout-Englert-Higgs mechanism, as proven by the discovery of the Higgs boson.
Device used to measure the properties of the particles which pass through it. It is formed of different sub-detectors, each designed to record a specific property of the particles.
There are four forces in Nature. The most well-known is gravity, which revoles the Earth around the Sun and keeps us on the Earth. The force responsible for electrical and magnetic phenomena is the electromagnetic force. The other two forces, the strong force and the weak force, act on the nucleus of the atom.
The particle which carries the strong force, one of the four fundamental forces. In protons and neutrons, gluons are what allow the quarks to remain stuck together.
Family of particles comprising neutrons and protons, constituents of ordinary matter.
An atom with one or more electrons removed or added, so it has a net electrical charge.
For physicists, matter is what we and everything around us are made of: this passport, your eyes, but also the air you breathe, the Sun and the billions of galaxies in our Universe…
A theory which describes fundamental particles and four of the forces that act between them.
Neutral particle which only interacts very weakly with matter.
Elementary constituent of matter.
One of the fundamental particles of matter known today.