Talk:Klein–Nishina formula

The text states that:

"The value dσ/dΩ is the probability that a photon will scatter into the solid angle defined by dΩ = 2πsinθdθ."

A differential cross section is not a probability. It is an equivalent area for a target particle to scatter an incident particle into a given solid angle. As such, it is proportional to the probability that one of the incoming photons scatters into the solid angle.

Wigcp 03:45, 25 July 2007 (UTC)

Units
I think the formula given is valid only in Lorentz-Heaviside units. It would have various factors of $$4\pi$$ and $$\epsilon_0$$ floating around if it were written in SI or Gaussian units. I haven't made the changes myself as I'm not sure of my facts: I came to this article to find out for sure! Thanks. Matt (talk) 16:32, 4 January 2010 (UTC)


 * As written, it's correct: all the weird unit conversion factors are buried inside the $$\alpha$$. The definition of the fine structure constant in terms of other constants depends on the unit system, but in any unit system it ends up as the unitless number about 1/137. Spatrick99 (talk) 21:31, 9 December 2010 (UTC)

Reference to the Compton scattering formula
The P(E,theta) is basically the compton scattering formula. I think this should be mentioned. Otherwise it is not clear where the expression for P is coming from. — Preceding unsigned comment added by 140.181.68.37 (talk) 09:27, 2 August 2013 (UTC)

To be honest, the whole wikipedia page should be re-written for this, or at least the equations, because the notation is more complicated than it needs to be. I do not see any sense for example why the letter P is used, it is not a standard practice anywhere at all, the "reduced" Compton wave length is NEVER indicated by the letter r, it should be a lambda (with a subscript of your choice as long as it's reasonably sensible). Indicating that P is a function of theta and E_gamma inside the Klein-Nishina formula itself, is again completely unnecessary, it just makes the equation look more cluttered for no good reason, furthermore it is not overly clear what P means in the formula, if you are not yet familiar with it, it would be much better to stick with E, E' and Eo, just like everywhere else. — Preceding unsigned comment added by 94.194.205.197 (talk) 03:03, 9 May 2014 (UTC)