Heavy quark mass effects in charged-current deep-inelastic scattering at approximate NNLO in the Aivazis-Collins-Olness-Tung scheme
Abstract
The approximate SACOT- scheme for heavy quark production in deep-inelastic scattering was initially formulated for the neutral current structure functions F2 and FL. We extend this approach to the charged current case (also including F3), and thereby complete the definitions for the most relevant inclusive structure functions. Furthermore, we implement these structure functions in the open-source code APFEL++ which provides fast numerical evaluations over a wide kinematic range; this addition to the APFEL++ code is publicly available, with details provided in the appendix. This SACOT- implementation enables, for the first time, detailed numerical insights on the mass dependence of the structure functions and cross sections in the (x,Q2)-plane for both neutral and charged current processes. We consider kinematic regions relevant for the experimental measurements from fixed-target experiments (NuTeV, CCFR and Chorus) and HERA, and also projections for the upcoming EIC. In particular, the experiments reveal a surprisingly strong dependence on the mass effects, offering valuable insights that may help resolve long-standing challenges in accurately describing these datasets.
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