Towards a fitting procedure for deeply virtual Compton scattering at next-to-leading order and beyond
Mar, 2007
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Abstract:
Combining dispersion and operator product expansion techniques, we derive the conformal partial wave decomposition of the virtual Compton scattering amplitude in terms of complex conformal spin to twist-two accuracy. The perturbation theory predictions for the deeply virtual Compton scattering (DVCS) amplitude are presented in next-to-leading order for both conformal and modified minimal subtraction scheme. Within a conformal subtraction scheme, where we exploit predictive power of conformal symmetry, the radiative corrections are presented up to next-to-next-to-leading order accuracy. Here, because of the trace anomaly, the mixing of conformal moments of generalized parton distributions (GPD) at the three-loop level remains unknown. Within a new proposed parameterization for GPDs, we then study the convergence of perturbation theory and demonstrate that our formalism is suitable for a fitting procedure of DVCS observables.- 13.60.Fz
- 12.38.Bx
- 11.25.Db
- Deeply virtual Compton scattering
- Next-to-next-to-leading order corrections
- Fitting procedure
- Generalized parton distributions
- Conformal symmetry
- deeply virtual Compton scattering
- quantum chromodynamics
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