Composite particles are
bound states of elementary particles.
Hadrons Hadrons are defined as
strongly interacting composite particles. Hadrons are either: •
Composite fermions (especially 3 quarks), in which case they are called
baryons. •
Composite bosons (especially 2 quarks), in which case they are called
mesons.
Quark models, first proposed in 1964 independently by
Murray Gell-Mann and
George Zweig (who called quarks "aces"), describe the known hadrons as composed of valence
quarks and/or antiquarks, tightly bound by the
color force, which is mediated by
gluons. (The interaction between quarks and gluons is described by the theory of
quantum chromodynamics.) A "sea" of virtual quark–antiquark pairs is also present in each hadron.
Baryons Ordinary
baryons (composite
fermions) contain three valence quarks or three valence antiquarks each. •
Nucleons are the fermionic constituents of normal atomic nuclei: •
Protons, composed of two up and one down quark (uud) •
Neutrons, composed of two down and one up quark (ddu) •
Hyperons, such as the Λ, Σ, Ξ, and Ω particles, which contain one or more
strange quarks, are short-lived and heavier than nucleons. Although not normally present in atomic nuclei, they can appear in short-lived
hypernuclei. • A number of
charmed and
bottom baryons have also been observed. •
Pentaquarks consist of four valence quarks and one valence antiquark. • Other
exotic baryons may also exist.
Mesons Ordinary
mesons are made up of a
valence quark and a valence
antiquark. Because mesons have integer
spin (0 or 1) and are not themselves elementary particles, they are classified as "composite"
bosons, although being made of
elementary fermions. Examples of mesons include the
pion,
kaon, and the
J/ψ. In
quantum hadrodynamics, mesons mediate the
residual strong force between nucleons. At one time or another, positive
signatures have been reported for all of the following
exotic mesons but their existences have yet to be confirmed. • A
tetraquark consists of two valence quarks and two valence antiquarks; • A
glueball is a bound state of gluons with no valence quarks; •
Hybrid mesons consist of one or more valence quark–antiquark pairs and one or more real gluons.
Atomic nuclei depiction of the
helium atom. In the nucleus, the protons are in red and neutrons are in purple. In reality, the nucleus is also spherically symmetrical.
Atomic nuclei typically consist of protons and neutrons, although exotic nuclei may consist of other baryons, such as
hypertriton which contains a
hyperon. These baryons (protons, neutrons, hyperons, etc.) which comprise the nucleus are called nucleons. Each type of nucleus is called a "
nuclide", and each nuclide is defined by the specific number of each type of nucleon. • "
Isotopes" are nuclides which have the same number of protons but differing numbers of neutrons. • Conversely, "
isotones" are nuclides which have the same number of neutrons but differing numbers of protons. • "
Isobars" are nuclides which have the same total number of nucleons but which differ in the number of each type of nucleon.
Nuclear reactions can change one nuclide into another.
Atoms Atoms are the smallest neutral particles into which matter can be divided by
chemical reactions. An atom consists of a small, heavy nucleus surrounded by a relatively large, light cloud of electrons. An atomic nucleus consists of 1 or more protons and 0 or more neutrons. Protons and neutrons are, in turn, made of quarks. Each type of atom corresponds to a specific
chemical element. To date, 118 elements have been discovered or created.
Exotic atoms may be composed of particles in addition to or in place of protons, neutrons, and electrons, such as hyperons or muons. Examples include
pionium () and
quarkonium atoms.
Leptonic atoms Leptonic atoms, named using -
onium, are exotic atoms constituted by the bound state of a lepton and an antilepton. Examples of such atoms include
positronium (),
muonium (), and "
true muonium" (). Of these positronium and muonium have been experimentally observed, while "true muonium" remains only theoretical.
Molecules Molecules are the smallest particles into which a substance can be divided while maintaining the chemical properties of the substance. Each type of molecule corresponds to a specific
chemical substance. A molecule is a composite of two or more atoms. Atoms are combined in a fixed proportion to form a molecule. Molecule is one of the most basic units of matter.
Ions Ions are charged atoms (
monatomic ions) or molecules (
polyatomic ions). They include cations which have a net positive charge, and anions which have a net negative charge.
Other categories •
Goldstone bosons are a massless excitation of a field that has been
spontaneously broken. The
pions are quasi-goldstone bosons (quasi- because they are not exactly massless) of the broken
chiral isospin symmetry of
quantum chromodynamics. •
Parton, is a generic term coined by
Feynman for the sub-particles making up a composite particle – at that time a baryon – hence, it originally referred to what are now called "
quarks" and "
gluons". •
Odderon, a particle composed of an odd number of gluons, detected in 2021. == Quasiparticles ==