W and Z bosons
W and Z bosons are some of the least understood elementary particles. Both are bosons, which means that they have a spin of 0 or 1. Both had been found in experiments by the year 1983. Because of this, Z bosons are theoretical. Together, they are responsible for a force known as "weak force." Weak force was called weak because it is was not predicted to be very strong compared to other forces like electromagnetism. There are two W bosons with different charges, the normal W+, and its antiparticle, the W –. Z bosons are their own antiparticle.
W bosons are named after the weak force that they are responsible for. The naming of the Z boson is still uncertain, although it is believed to have been the last particle on a list that a lab that named it was looking for. Weak force is what physicists believe is responsible for the breaking down of some radioactive elements, in the form of Beta decay. In the late '70s, scientists managed to combine weak force and electromagnetism, and called it the electroweak force.
Creation of W and Z bosons [change]
W and Z bosons are only known to be created under Beta decay, which is a form of radioactive decay.
Beta Decay [change]
Beta decay occurs when there are a lot of neutrons in an atom. An easy way to think of a neutron is that it is made of one proton and one electron. When there are too many neutrons in one atom nucleus, one neutron will split and form a proton and an electron. The proton will stay where it is, and the electron will be launched out of the atom at incredible speed. This is why Beta radiation is harmful to humans.
The above model is not entirely accurate, as both protons and neutrons are each made of three quarks. (A quark is a very small particle that is believed to be among the smallest particles in existence, and so it is not made of any smaller particles). A proton is made of two up quarks (which each have a charge of +2/3), and one down quark (which has a charge of -1/3). This is why a proton has a charge of +1. A neutron is made of one up quark and two down quarks, which is why its charge is 0. Up quarks and down quarks are two of the six types of quarks. These six types are known in the scientific world as flavours.
Weak force is believed to be able to change the flavour of a quark. For example, when it changes a down quark in a neutron into an up quark, the charge of the neutron becomes +1, since it would have the same arrangement of quarks as a proton. The three-quark neutron with a charge of +1 is no longer a neutron after this, as it fulfills all of the requirements to be a proton. Therefore, Beta decay will cause a neutron to become a proton (along with some other end-products).
W boson decay [change]
When a quark changes flavour, as it does in Beta decay, it releases a W boson. W bosons only last for 3x10-25 seconds, which is why we had not discovered them until less than half a century ago. Surprisingly, W bosons have a mass of about 80 times that of a proton (one proton weighs one atomic mass unit). Keep in mind that the neutron that it came from also only weighs one atomic mass unit. In the quantum world, it is not an extremely uncommon occurrence for a more massive particle to come from a less massive particle because it lasts less time than Planck's constant. (Planck's constant is simply a convenient number that falls out of the math when calculating this). After the 3x10-25 seconds has passed, a W boson decays into one electron and one neutrino. Since neutrinos rarely interact with matter, we can ignore them from now on. The electron is propelled out of the atom at a high speed. The proton that was produced by the Beta decay stays in the atom nucleus, and raises the atomic number by one.
Z boson decay [change]
Z bosons are also predicted in the Standard Model of physics, which successfully predicted the existence of W bosons. Z Bosons decay into a fermion and its antiparticle, which are particles such as electrons and quarks which have spin in units of half of the reduced planks constant.
|Particles in Physics|
|Elementary:||Fermions:||Quarks: up – down – strange – charm – bottom – top
Leptons: electron – muon – tau – neutrinos
|Bosons:||Gauge bosons: photon – W and Z bosons – gluons|
|Composite:||Hadrons:||Baryons: proton – neutron – hyperon|
|Mesons: pion – kaon – J/ψ|
|Atomic nuclei – Atoms – Molecules|
|Hypothetical:||Higgs boson – Graviton – Tachyon|