nLab nuclear force

Redirected from "weak nuclear forces".
Contents

Context

Physics

physics, mathematical physics, philosophy of physics

Surveys, textbooks and lecture notes


theory (physics), model (physics)

experiment, measurement, computable physics

Fields and quanta

fields and particles in particle physics

and in the standard model of particle physics:

force field gauge bosons

scalar bosons

matter field fermions (spinors, Dirac fields)

flavors of fundamental fermions in the
standard model of particle physics:
generation of fermions1st generation2nd generation3d generation
quarks (qq)
up-typeup quark (uu)charm quark (cc)top quark (tt)
down-typedown quark (dd)strange quark (ss)bottom quark (bb)
leptons
chargedelectronmuontauon
neutralelectron neutrinomuon neutrinotau neutrino
bound states:
mesonslight mesons:
pion (udu d)
ρ-meson (udu d)
ω-meson (udu d)
f1-meson
a1-meson
strange-mesons:
ϕ-meson (ss¯s \bar s),
kaon, K*-meson (usu s, dsd s)
eta-meson (uu+dd+ssu u + d d + s s)

charmed heavy mesons:
D-meson (uc u c, dcd c, scs c)
J/ψ-meson (cc¯c \bar c)
bottom heavy mesons:
B-meson (qbq b)
ϒ-meson (bb¯b \bar b)
baryonsnucleons:
proton (uud)(u u d)
neutron (udd)(u d d)

(also: antiparticles)

effective particles

hadrons (bound states of the above quarks)

solitons

in grand unified theory

minimally extended supersymmetric standard model

superpartners

bosinos:

sfermions:

dark matter candidates

Exotica

auxiliary fields

Contents

Idea

Besides the forces of electromagnetism and gravity there are two more fundamental gauge fields in the standard model of particle physics.

The weak nuclear force is described by a gauge field with gauge group the special unitary group SU(2)SU(2) (W-boson, Z-boson). It controls aspects of the beta decay.

The strong nuclear force is described by a gauge field with gauge group the special unitary group SU(3)SU(3) (QCD (gluon). It governs the interaction between quarks.

References

See also the references at:

See also:

Textbook account on weak nuclear force-mediated decays with an eye towards in flavour physics and flavour anomalies:

Last revised on January 7, 2024 at 20:25:16. See the history of this page for a list of all contributions to it.