Trisha Shetty (Editor)

Landau–Yang theorem

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In quantum mechanics, the Landau–Yang theorem is a selection rule for particles that decay into two photons. The theorem states that a massive particle with spin 1 cannot decay into two photons.

Contents

Assumptions

A photon here is any particle with spin 1, without mass and without internal degrees of freedom. The photon is the only known particle with these properties.

Consequences

The theorem has several consequences in particle physics. For example:

  • The meson ρ cannot decay into two photons, differently from the neutral pion, that almost always decays into this final state (98.8% of times).
  • The boson Z cannot decay into two photons.
  • The Higgs boson, whose spin was never measured, but whose decay into two photons was observed recently cannot have spin 1 in prevailing models that assume the truth of the Landau-Yang theorem. However, since the Higgs is known to have spin 0, the new particle cannot rightly be called a Higgs until its spin is measured and the result of that measurement shows spin 0.

    • References

    Landau–Yang theorem Wikipedia
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