A neutron is a tiny subatomic particle that can be found in practically all forms of conventional matter. The only stable exception is the hydrogen atom. The neutron's home is in the atomic nucleus, where it is bound closely with protons through the strong nuclear force, the strongest force in nature. Neutrons are responsible for about half the weight of conventional matter by volume.

The neutron is so named because it is electrically neutral. It can be seen as a proton and an electron smashed together. Because both of these particles have opposite charge of the same magnitude, their fusion results in a chargeless particle. This lack of a charge can make neutrons difficult to detect. However, techniques for observing them have been formulated, which take advantage of the way they interact with the nuclei of various atoms. Neutrons can sometimes behave charged in a limited way because their constituents, quarks, have small charges.

Normal atoms have a balanced number of protons and neutrons in their nucleus. For example, helium has two protons and two neutrons, and iron has 26 protons and 26 neutrons. When this balance is broken, the atom is referred to as an isotope, though technically normal atoms are just isotopes which are stable, and the word "isotope" is used colloquially to describe non-stable atomic variants.

The neutron was originally discovered in 1930. Its antiparticle, the antineutron, was discovered in 1956. While it is a subatomic particle, the neutron is not fundamental. It is composed of two down quarks and one up quark, making it classified a baryon. The fact that the neutron is composed of smaller parts was not theorized until 1961.

A neutron has a similar mass to its nuclear partner, the proton, except it is slightly greater. Neutrons can survive outside of the nucleus of an atom, but only for a period of about 15 minutes. At the end of that time, they undergo a process called beta decay whereby they break down into a proton, an electron, and an antineutrino.

An understanding of neutrons has been critical in the development of nuclear energy and nuclear weapons. Unstable isotopes emit neutrons when they break down, which can start nuclear chain reactions. The large rods inserted into nuclear reactors exist to limit the number of neutrons bouncing around.