Weak hypercharge
Template:Short description Script error: No such module "Distinguish". Script error: No such module "Sidebar". In the Standard Model of electroweak interactions of particle physics, the weak hypercharge is a quantum number relating the electric charge and the third component of weak isospin. It is frequently denoted and corresponds to the gauge symmetry U(1).[1][2]
It is conserved (only terms that are overall weak-hypercharge neutral are allowed in the Lagrangian). However, one of the interactions is with the Higgs field. Since the Higgs field vacuum expectation value is nonzero, particles interact with this field all the time even in vacuum. This changes their weak hypercharge (and weak isospin T3Script error: No such module "Check for unknown parameters".). Only a specific combination of them, (electric charge), is conserved.
Mathematically, weak hypercharge appears similar to the Gell-Mann–Nishijima formula for the hypercharge of strong interactions (which is not conserved in weak interactions and is zero for leptons).
In the electroweak theory SU(2) transformations commute with U(1) transformations by definition and therefore U(1) charges for the elements of the SU(2) doublet (for example lefthanded up and down quarks) have to be equal. This is why U(1) cannot be identified with U(1)em and weak hypercharge has to be introduced.[3][4]
Weak hypercharge was first introduced by Sheldon Glashow in 1961.[4][5][6]
Definition
Weak hypercharge is the generator of the U(1) component of the electroweak gauge group, Script error: No such module "Gaps". and its associated quantum field BScript error: No such module "Check for unknown parameters". mixes with the WScript error: No such module "Check for unknown parameters".3 electroweak quantum field to produce the observed Template:Subatomic particle Script error: No such module "Check for unknown parameters". gauge boson and the photon of quantum electrodynamics.
The weak hypercharge satisfies the relation
where Template:Mvar is the electric charge (in elementary charge units) and Template:Mvar3 is the third component of weak isospin (the SU(2) component).
Rearranging, the weak hypercharge can be explicitly defined as:
| Fermion family |
Left-chiral fermions | Right-chiral fermions | ||||||
|---|---|---|---|---|---|---|---|---|
| Electric charge Template:Mvar |
Weak isospin Template:Mvar3 |
Weak hyper- charge Template:MvarW |
Electric charge Template:Mvar |
Weak isospin Template:Mvar3 |
Weak hyper- charge Template:MvarW | |||
| Leptons | Template:Subatomic particle, Template:Subatomic particle, Template:Subatomic particleScript error: No such module "Check for unknown parameters". | 0 | +Template:Sfrac | −1 | νScript error: No such module "Check for unknown parameters".Template:Sc May not existScript error: No such module "Check for unknown parameters". |
0 | 0 | 0 |
| Template:Subatomic particle, Template:Subatomic particle, Template:Subatomic particle | −1 | −Template:Sfrac | −1 | eScript error: No such module "Su"., μScript error: No such module "Su"., τScript error: No such module "Su". | −1 | 0 | −2 | |
| Quarks | Template:Subatomic particle, Template:Subatomic particle, Template:Subatomic particle | +Template:Sfrac | +Template:Sfrac | +Template:Sfrac | uScript error: No such module "Su"., cScript error: No such module "Su"., tScript error: No such module "Su". | +Template:Sfrac | 0 | +Template:Sfrac |
| d, s, b | −Template:Sfrac | −Template:Sfrac | +Template:Sfrac | dScript error: No such module "Su"., sScript error: No such module "Su"., bScript error: No such module "Su". | −Template:Sfrac | 0 | −Template:Sfrac | |
where "left"- and "right"-handed here are left and right chirality, respectively (distinct from helicity). The weak hypercharge for an anti-fermion is the opposite of that of the corresponding fermion because the electric charge and the third component of the weak isospin reverse sign under charge conjugation.
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| Interaction mediated |
Boson | Electric charge Template:Mvar |
Weak isospin Template:Mvar3 |
Weak hypercharge Template:MvarW |
|---|---|---|---|---|
| Weak | Template:Subatomic particle Script error: No such module "Check for unknown parameters". | ±1 | ±1 | 0 |
| Template:Subatomic particle Script error: No such module "Check for unknown parameters". | 0 | 0 | 0 | |
| Electromagnetic | Template:Subatomic particle Script error: No such module "Check for unknown parameters". | 0 | 0 | 0 |
| Strong | Template:Subatomic particle Script error: No such module "Check for unknown parameters". | 0 | 0 | 0 |
| Higgs | Template:Subatomic particle Script error: No such module "Check for unknown parameters". | 0 | −Template:Sfrac | +1 |
The sum of −isospin and +charge is zero for each of the gauge bosons; consequently, all the electroweak gauge bosons have
Hypercharge assignments in the Standard Model are determined up to a twofold ambiguity by requiring cancellation of all anomalies.
Alternative half-scale
For convenience, weak hypercharge is often represented at half-scale, so that
which is equal to just the average electric charge of the particles in the isospin multiplet.[8][9]
Baryon and lepton number
Weak hypercharge is related to baryon number minus lepton number via:
where X is a conserved quantum number in GUT. Since weak hypercharge is always conserved within the Standard Model and most extensions, this implies that baryon number minus lepton number is also always conserved.
Neutron decay
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Hence neutron decay conserves baryon number Template:Mvar and lepton number Template:Mvar separately, so also the difference Template:Mvar − Template:Mvar is conserved.
Proton decay
Proton decay is a prediction of many grand unification theories.
Hence this hypothetical proton decay would conserve Template:Mvar − Template:Mvar , even though it would individually violate conservation of both lepton number and baryon number.
See also
References
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