User:John R. Brews/Sample2: Difference between revisions

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==Weak isospin==
==Weak isospin==
As with electromagnetism where [[electric charge]] serves to couple matter to the field, and with the strong interaction where [[color]] couples matter to the interaction, with the weak interaction it is the ''weak isospin'' that couples matter to the weak interaction.
As with electromagnetism where [[electric charge]] serves to couple matter to the field, and with the strong interaction where [[Standard Model|color]] couples matter to the interaction, with the weak interaction it is the ''weak isospin'' that couples matter to the weak interaction.


==Importance==
==Importance==

Revision as of 07:23, 5 September 2011

In the Standard Model of particle physics, the weak interaction or weak force is one of three fundamental interactions, the other two being the strong interaction (also called the color force) and the electromagnetic interaction. Gravitation, the fourth fundamental interaction, is not included in the Standard Model, and its inclusion remains an outstanding issue (for example, an aspect of string theory and of quantum gravity).

The weak interaction is viewed as an exchange force mediated by three messenger particles, the bosons: W+, W and Z, with properties listed below:

Messenger particles
Interaction field Particle name Symbol Spin Range (m) Mass(GeV/c02)
Weak field Weak bosons W+, W, Z 1 ≈ 10−17 MW=80.399±0.023;[1] MZ=91.1876±0.0021[2]

Weak isospin

As with electromagnetism where electric charge serves to couple matter to the field, and with the strong interaction where color couples matter to the interaction, with the weak interaction it is the weak isospin that couples matter to the weak interaction.

Importance

The weak interaction is responsible for the radioactive decay of subatomic particles and initiates hydrogen fusion in stars.

Peculiarities

The weak interaction is unique in a number of respects:

  1. It is the only interaction capable of changing the flavor of quarks (that is, the changing of one species of quark into another).
  2. It is the only interaction which violates P or parity-symmetry. It is also the only one which violates CP symmetry.
  3. Its messenger particles have large masses, a feature explained in the Standard Model by introduction of the Higgs boson, a massive particle yet to be observed. By contrast, the strong force is mediated by zero mass gluons, while the electromagnetic force is mediated by the very small (possibly zero) mass photons.

References

  1. K. Nakamura et al. (June 16, 2011). W. PDG Particle listings. Particle Data Group.
  2. K. Nakamura et al. (June 16, 2011). Z. PDG Particle listings. Particle Data Group.

NIST McParland