# Compton scattering angle

Say a photon hits a free electron at rest. I understand that there is a formula for the Compton scattering when the photon is scattered with an angle $\theta$, but I don't understand what determines that angle $\theta$. If one photon hits such an electron, won't it be scattered through a unique angle? It seems it is not so, since there is the angle $\theta$ as a parameter.

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Hi Bruno - the answer to this is equivalent to my answer to your other question - physics.stackexchange.com/questions/31581/… –  DJBunk Jul 8 '12 at 1:33

At low photon energies, the scattering process is sometimes called Thompson scattering. You can ignore relativistic effects, and simply say that the electric field of the photon causes the electron to oscillate in the plane of the electric field. That causes the electron to emit dipole radiation. The probability to scatter in a particular direction is then $\propto \sin^2\theta$, where $\theta$ is the same angle that you're using, and is the angle away from the plane of the electric field of the photon. Jackson derives the angular dependence in chapter 9, section 9.2. The final equation is (9.23).