Fermi level physics (10^-15 m)

Particle physics descibes the world as built up from different classes of particles.
Bosons are force particles such as photons and gravitons that transmit the electromagnetic and gravitational fields. Thera are also gluons that carry the strong (nuclear) force together with the W and Z particles that carry the weak (nuclear) force.
Fermions are matter particles that come in two varities, "leptons" that are observed as point-like particles such as the electron and "quarks" that combine to form extended particles like the proton and the neutron. Once seen as simple building blocks of nature the proton and neutron are really very complex object. The 'u' and 'd' quarks that generates these "nucleons" each accounts for only about one percent of the total mass. The main part of the proton and neutron masses arises from a minute fireball of chromodynamic energy where 'sea' quarks exists in a twilight zone between the 'virtual' quarks filling all of the vacuum and the 'real' quarks that are created in high energy particle collisions. When one talks of the triplets of quarks that generates the BARYONS or the doublettes of quarks and anti-quarks that generates the MESONS the true meaning is that these particles are 'valence' quarks in analagoue with chemistry where the properties of atoms are determined by the outermost shell of electrons. In recent years there has been successfull numerical simulations of baryons and mesons (together known as HADRONS). These numerical calculations has also predicted the masses of 'glueballs' a kind of particles that have no valence quarks but are defined only by the chromodynamic energy of interacting gluons.