23,861 research outputs found
When is it possible to use perturbation technique in field theory ?
The vector pion form factor is used as an example to analyze this question.
Given the experimental radius of the pion, the crucial question is whether
perturbative methods could be used for the effective chiral lagrangian to
calculate the pion form factor. Our analysis shows that the pion rms radius is
far too large (or the related rho resonance mass is too low) for the
perturbation theory to be valid.Comment: 11 pages, Latex, 4 eps figs. Contribution to the proceedings of the
workshop "QCD2000" Villefranche-sur-Mer, France, January 200
Dispersion Relation Analyses of Pion Form Factor, Chiral Perturbation Theory and Unitarized Calculations
The Vector Pion form factor below 1 GeV is analyzed using experimental data
on its modulus, the P-wave pion pion phase shifts and dispersion relation. It
is found that causality is satisfied. Using dispersion relation, terms
proportional to s squared and s cubed are calculated using the experimental
data, where s is the momentum transfer. They are much larger than the one-loop
and two-loop Chiral Perturbation Theory calculations. Unitarized model
calculations agree very well with dispersion relation results.Comment: 10 pages, 4 PostScript figures some minor changes and added
reference
Dispersion Relations and Sum Rules for the pi ->gamma gamma* and gamma* ->gamma pi form factor
Sum rules for the off-shell isovector form factor pi -> gamma gamma* are
given in terms of the pion form factor and the gamma pi ->pi pi experimental
data. Similarly the corresponding sum rules for the isoscalar form factor are
given in terms of the experimental photon-3 pi form factor and the gamma pi ->
3 pi amplitude. For some set of parameters, e.g. rho -> pi gamma width = 90
KeV, the pi -> gamma gamma rate and the slope parameter of the decay pi ->
gamma e plus e minus are in good agreement with the experimental data.Comment: 13 page
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