Charged current

The charged current interaction is one of the ways in which subatomic particles can interact by means of the weak force. It is mediated by the
W⁺
and
W⁻
bosons.

Standard Model of particle physics
Elementary particles of the Standard Model
Background Particle physics Standard Model Quantum field theory Gauge theory Spontaneous symmetry breaking Higgs mechanism
Constituents Electroweak interaction Quantum chromodynamics CKM matrix Standard Model mathematics
Limitations Strong CP problem Hierarchy problem Neutrino oscillations Physics beyond the Standard Model
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The interaction is called 'charged' because the W bosons coupling to the charged currents must have electric charge. The charged current that gives the interaction its name is that of the interacting particles, in a charged combination. For example, the charged-current contribution to the
ν
_e
e⁻
→
ν
_e
e⁻
elastic scattering amplitude

${\displaystyle {\mathfrak {M}}^{\mathrm {CC} }\propto J_{\mu }^{\mathrm {(CC)} }(\mathrm {e^{-}} \to \nu _{\mathrm {e} })\;J^{\mathrm {(CC)} \mu }(\nu _{\mathrm {e} }\to \mathrm {e^{-}} )}$

where the charged currents describing the flow of one fermion into the other are given by

${\displaystyle J^{\mathrm {(CC)\mu } }(f\to f')={\bar {u}}_{f'}\gamma ^{\mu }{\frac {1}{2}}\left(1-\gamma ^{5}\right)u_{f}.}$