NLO corrections and factorization for transverse single-spin asymmetries

Daniel Rein; Marc Schlegel; Patrick Tollkühn; Werner Vogelsang

NLO corrections and factorization for transverse single-spin asymmetries

Daniel Rein, Marc Schlegel, Patrick Tollkühn, Werner Vogelsang

Abstract

We present next-to-leading order QCD corrections for the cross sections for $\ell p^\uparrow\to hX$, $\ell p^\uparrow\to {\mathrm{jet}}X$ with transversely polarized initial protons. These cross sections are known to be power-suppressed in QCD and probe twist-3 parton correlation functions in the proton. Our calculation exhibits the full complexity of a perturbative QCD analysis beyond leading power, involving in particular various derivatives of the parton correlation functions. We demonstrate that collinear factorization for these single-spin observables holds at one loop. We also present exploratory phenomenological results for the NLO single-spin asymmetry in $ep^\uparrow\to hX$ and compare to data from the HERMES experiment.

NLO corrections and factorization for transverse single-spin asymmetries

Abstract

We present next-to-leading order QCD corrections for the cross sections for

with transversely polarized initial protons. These cross sections are known to be power-suppressed in QCD and probe twist-3 parton correlation functions in the proton. Our calculation exhibits the full complexity of a perturbative QCD analysis beyond leading power, involving in particular various derivatives of the parton correlation functions. We demonstrate that collinear factorization for these single-spin observables holds at one loop. We also present exploratory phenomenological results for the NLO single-spin asymmetry in

and compare to data from the HERMES experiment.

NLO corrections and factorization for transverse single-spin asymmetries

Abstract

NLO corrections and factorization for transverse single-spin asymmetries

Abstract

Paper Structure

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