Possible Duplicate: How does one experimentally determine chirality, helicity an
ID: 1378435 • Letter: P
Question
Possible Duplicate:
How does one experimentally determine chirality, helicity and spin?
How do you find spin of a particle from experimental data?
We read about and study angular momentum in quantum mechanics textbooks, its classical definition, its quantum definition, its mathematics, its representations, its eigenvalues and eigenfunctions...etc.
This is all lovely, but no books do not usually tell you how angular momentum is measured in experiments.
(Also, if someone knows a practical reference to quantum mechanics that would be awesome. Practical in the sense that, when mentioning that such an observable is described by a linear hermitian operator (which guarantees the reality of the eigenvalues, which are nothing but the spectrum we "find" in the lab) it would mention also how such a quantity is measured in practice in the lab)
Explanation / Answer
For stable particles one can do a Stern-Gerlach experiment as mentioned by @user56771.
For elementary particles which decay fast, and resonances, one looks at the angular distributions of the decay products which will be different for different intrinsic spins of the parent particle. Once one builds a table for elementary particles the knowledge can be used with angular momentum conservation to limit the possibilities of spin,( as with the recent Higgs candidate, which can only be spin 0 or 2 because it decays into two photons,) even before there is enough statistics for definitive angular distributions.
Generally in particle physics one uses the angular distributions for spin questions. There is a talk on this on the CERN site.