The Virtual Photon Structure to the Next-to-next-to-leading Order in QCD

Abstract

We investigate the unpolarized virtual photon structure functions F2gamma(x,Q2,P2) and FLgamma(x,Q2,P2) in perturbative QCD for the kinematical region Lambda2 ll P2 ll Q2, where -Q2(-P2) is the mass squared of the probe (target) photon and Lambda is the QCD scale parameter. Using the framework of the operator product expansion supplemented by the renormalization group method, we derive the definite predictions for the moments of F2gamma(x,Q2,P2) up to the next-to-next-to-leading order (NNLO) (the order alphaalphas) and for the moments of FLgamma(x,Q2,P2) up to the next-to-leading order (NLO) (the order alphaalphas). The NNLO corrections to the sum rule of F2gamma(x,Q2,P2) are negative and found to be 7% sim10% of the sum of the LO and NLO contributions, when P2=1 rm GeV2 and Q2=30sim 100 rm GeV2 or P2=3 rm GeV2 and Q2=100 rm GeV2, and the number of active quark flavors nf is three or four. The NLO corrections to FLgamma are also negative. The moments are inverted numerically to obtain the predictions for F2gamma(x,Q2,P2) and FLgamma(x,Q2,P2) as functions of x.

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