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Flavor-changing neutral current : ウィキペディア英語版
Flavor-changing neutral current

In theoretical physics, flavor-changing neutral currents (FCNCs) are hypothetical expressions that change the flavor of a fermion current without altering its electric charge. If they occur in nature (as reflected by Lagrangian interaction terms), these processes may induce phenomena that have not yet been observed in experiment. Flavor-changing neutral currents may occur in the Standard Model beyond the tree level, but they are highly suppressed by the GIM mechanism. Several collaborations have searched for FCNC.〔Phys.Rev.Lett. 87 (2001) 181803〕 The Tevatron CDF experiment first observed the FCNC decay of the strange B-meson to phi mesons in 2005.
FCNCs are generically predicted by theories that attempt to go beyond the Standard Model, such as the models of supersymmetry or technicolor. Their suppression is necessary for an agreement with observations, making FCNCs important in model-building.
==Example==

Consider a toy model in which an undiscovered boson ''S'' may couple both to the electron as well as the tau via the term
:S\bar\psi_e\psi_\tau
Since the electron and the tau have equal charges, the electric charge of ''S'' clearly must vanish to respect the conservation of electric charge. A Feynman diagram with ''S'' as the intermediate particle is able to convert a tau into an electron (plus some neutral decay products of the ''S''). The MEG experiment〔(MEG experiment website )〕 at the Paul Scherrer Institute near Zurich will search for a similar process, in which an antimuon decays to a photon and an antielectron. In the Standard Model, such a process proceeds only by emission and re-absorption of a charged W boson, which changes the tau into a neutrino and then an electron, emitting a photon to conserve energy and momentum.
In most cases of interest, the boson involved is not a new boson ''S'' but the Z boson itself.〔FCNCs involving the photon cannot occur at zero momentum transfers because of the unbroken electromagnetic gauge symmetry; as such, FCNCs involving the photon at a non-zero momentum transfer are relatively suppressed compared to FCNCs involving the Z boson.〕 This can occur if the coupling to weak neutral currents is (slightly) non-universal. The dominant universal coupling to the Z boson does not change flavor, but sub-dominant non-universal contributions can.
FCNCs involving the Z boson for the down-type quarks at zero momentum transfer are usually parameterized by the effective action term
:\frac\overline_U_\gamma^\mu d_Z_\mu
This particular example of FCNC is often studied the most because we have some fairly strong constraints coming from the decay of B0 mesons in Belle and BaBar. The off-diagonal entries of ''U'' parameterizes the FCNCs and current constraints restrict them to be less than one part in a thousand for |''U''bs|. The contribution coming from the one-loop SM corrections are actually dominant, but the experiments are precise enough to measure slight deviations from the SM prediction.
Experiments tend to focus on flavor-changing neutral currents as opposed to flavor-changing charged currents, because the weak neutral current (Z boson) does not change flavor in the Standard Model proper at the tree level whereas the weak charged currents (W bosons) do. New physics in charged current events would be swamped by more numerous W boson interactions; new physics in the neutral current would not be masked by a large effect due to ordinary Standard Model physics.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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