Cross-section for elastic scattering?

muppet
Messages
602
Reaction score
1
Hi All,

Following on from the last dumb question I asked...

Suppose you calculate the tree-level approximation to the elastic scattering of two charged fermions
to find that the result varies as ##\sim 1/t##, where t is the Mandelstam variable describing the squared momentum transfer in the centre of mass frame.

To work out the corresponding cross-section, you integrate the square modulus of this over t with t=0 as one of your limits of integration, so that the result diverges. Why is this not regarded as a problem?
 
Physics news on Phys.org
This is regarded as a problem, a socalled collinear singularity. It always occurs for theories with massless particles exchanged in the t and u channels. The cure is a resummation in this channel. Look at Weinberg, Quantum Theory of Fields, Vol. I. There's a whole chapter is devoted to infrared problems.
 
Thanks for your reply. I've heard of collinear singularities, but I'd always had the impression that such singularities canceled other divergences from the same order in perturbation theory- e.g. infrared divergences in loop integrals being canceled by those from bremstrahlung, so I couldn't see how such higher-order terms would cancel a tree-level effect. Guess I need to look into Weinberg, thanks.
 

Thread 'Why Entangled Photon-Polarization Qubits Violate Bell’s Inequality'

Insights auto threads is broken atm, so I'm manually creating these for new Insight articles. In her YouTube video Bell’s Theorem Experiments on Entangled Photons, Dr. Fugate shows how polarization-entangled photons violate Bell’s inequality. In this Insight, I will use quantum information theory to explain why such entangled photon-polarization qubits violate the version of Bell’s inequality due to John Clauser, Michael Horne, Abner Shimony, and Richard Holt known as the...
View full post »

Thread 'Schrödinger equation and classical wave equation'

Not an expert in QM. AFAIK, Schrödinger's equation is quite different from the classical wave equation. The former is an equation for the dynamics of the state of a (quantum?) system, the latter is an equation for the dynamics of a (classical) degree of freedom. As a matter of fact, Schrödinger's equation is first order in time derivatives, while the classical wave equation is second order. But, AFAIK, Schrödinger's equation is a wave equation; only its interpretation makes it non-classical...
View full post »

Thread 'How strong is the justification for low probability extreme thermal fluctuations?'

I asked a question related to a table levitating but I am going to try to be specific about my question after one of the forum mentors stated I should make my question more specific (although I'm still not sure why one couldn't have asked if a table levitating is possible according to physics). Specifically, I am interested in knowing how much justification we have for an extreme low probability thermal fluctuation that results in a "miraculous" event compared to, say, a dice roll. Does a...
View full post »

Similar threads

A What is the Vector Manipulation Formula for Elastic Scattering Angle?
Replies
4
Views
1K
Time dependent scattering theory - cross section
Replies
0
Views
1K
I Neutrino-Atom Elastic Scattering: Insights from Particle Physics
Replies
3
Views
2K
I QFT - Confusion about Fermi's Golden Rule & Cross-Sections
Replies
1
Views
2K
I Why is there such a difference between the total cross-section data? (simulation vs. experiment)
Replies
1
Views
139
Virtuality of a nearly on-shell photon
Replies
4
Views
2K
A Understanding how to derive the differential cross-section formula
Replies
11
Views
2K
Neutron scattering probability distribution
Replies
8
Views
3K
A Pp and pBARp scattering amplitudes
Replies
9
Views
2K
A Use of the Optical Theorem and Regge trajectories
Replies
1
Views
2K

Hot Threads

Recent Insights

Back
Top