How do we know the spins of elementary particles?

In summary, the spin of an elementary particle can be determined through various methods such as measuring its angular momentum, studying its decays, and predicting its magnetic moment. For fermions, their spin can be 1/2, 3/2, 5/2, etc. while photons have a spin of 1 and gravitons have a spin of 2. The spin of gravitons is derived from the equations of general relativity and they must couple to the stress-energy tensor to mediate gravity. However, for stable and long-living particles, their spin can be measured directly by putting them in magnetic fields or inhomogeneous fields. The relationship between spin and magnetic moment can also be used to predict the spin
  • #1
Shen712
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How do we know the spin of an elementary particle? For example, a fermion has spin 1/2; a photon has spin 1; and even the ficticious graviton has spin 2. How do we know these spins? In other words, how are these spins determined?
 
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To be a little nit-picking, fermions have spin 1/2, 3/2, 5/2, etc, not only 1/2. I would say that the graviton's spin is derived, not postulated.
 
  • #4
For stable and long-living particles, we can put them in magnetic fields and watch the spin orientation change. In some cases we can also put them in inhomogeneous fields and measure the force directly (Stern-Gerlach experiment).

For unstable particles, we can study their decays: the angular and energy distributions of the decay products depend on the spin of the particles.

Gravitons have to couple to the stress-energy tensor to mediate gravity, and this is only possible with spin 2.
 
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  • #5
mfb said:
For stable and long-living particles, we can put them in magnetic fields and watch the spin orientation change. In some cases we can also put them in inhomogeneous fields and measure the force directly (Stern-Gerlach experiment).
Yes, but this rather measures the magnetic moment than the spin.
 
  • #6
Well, the two are related. You can predict the g-factor and the spin and check that the magnetic moment has the expected value. It works with electrons, although the measurements are typically interpreted as measurements of the g-factor. I don't know if protons and neutrons have a good theoretical prediction of their g-factor.
 
  • #7
mfb said:
I don't know if protons and neutrons have a good theoretical prediction of their g-factor.

Depends on what you mean by "good". The naive static quark model gives μ(p) = 3 and μ(n) = -2 (in nuclear magnetons). Measured values are 2.793 and -1.913. QCD with perfect SU(2) flavor symmetry predicts μ(n)/μ(p) = -2/3. (It's essentially a Clebsch-Gordon coefficient) The measured value is -0.685.
 
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Related to How do we know the spins of elementary particles?

1. How do scientists determine the spin of an elementary particle?

The spin of an elementary particle can be determined through experiments and observations. Scientists use particle accelerators to study the behavior of particles and measure their spin. By analyzing the interactions of particles with each other and with electromagnetic fields, scientists can determine the spin of a particle.

2. What is the significance of an elementary particle's spin?

The spin of an elementary particle is an intrinsic property that helps to classify and distinguish particles from one another. Spin also plays a crucial role in determining how particles interact with each other and with other forces in nature.

3. Can the spin of an elementary particle change?

No, the spin of an elementary particle is a fundamental property that does not change. However, particles can have different types of spin, such as spin 1/2 or spin 1, which can affect their behavior and interactions.

4. How does the spin of an elementary particle relate to its mass?

The spin of an elementary particle is not directly related to its mass. However, particles with higher spin tend to have greater mass. For example, particles with spin 1 have a higher mass than particles with spin 1/2.

5. Are there any theories or models that explain the spin of elementary particles?

Yes, the Standard Model of particle physics is a widely accepted theory that explains the spin of elementary particles. According to this model, particles with half-integer spin are called fermions, while particles with integer spin are called bosons. The spin of particles is also predicted by other theories, such as string theory and supersymmetry.

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