Abstract
Abstract Scaled momentum distributions for the strange hadrons $ K_{\text{S}}^0 $ and $ \Lambda /\bar{\Lambda } $ were measured in deep inelastic ep scattering with the ZEUS detector at HERA using an integrated luminosity of 330 pb−1. The evolution of these distributions with the photon virtuality, Q 2, was studied in the kinematic region 10 < Q 2 < 40000 GeV2 and 0.001 < x < 0.75, where x is the Bjorken scaling variable. Clear scaling violations are observed. Predictions based on different approaches to fragmentation were compared to the measurements. Leading-logarithm parton-shower Monte Carlo calculations interfaced to the Lund string fragmentation model describe the data reasonably well in the whole range measured. Next-to-leading-order QCD calculations based on fragmentation functions, FFs, extracted from e + e − data alone, fail to describe the measurements. The calculations based on FFs extracted from a global analysis including e + e −, ep and pp data give an improved description. The measurements presented in this paper have the potential to further constrain the FFs of quarks, anti-quarks and gluons yielding $ K_{\text{S}}^0 $ and $ \Lambda /\bar{\Lambda } $ strange hadrons.
Highlights
The measurements provided tests of pQCD and showed that scaling violations are observed
Scaled momentum distributions for the strange hadrons KS0 and Λ/Λwere measured in deep inelastic ep scattering with the ZEUS detector at HERA using an integrated luminosity of 330 pb−1
The measurements were performed in the current region of the Breit frame, which is equivalent to one hemisphere in e+e− annihilations, as functions of Q2 and xp
Summary
The data most widely used to extract the FFs comes from e+e− annihilations into charged hadrons [7,8,9,10,11,12,13,14,15,16,17,18,19] These data are very precise and the predicted cross sections do not depend on PDFs. These data are very precise and the predicted cross sections do not depend on PDFs They do not provide information on how to disentangle quark and anti-quark contributions to the FFs and the gluon fragmentation remains largely unconstrained. In the last few years, new one-particle inclusive measurements coming from both pp collisions [20,21,22,23] and DIS [44] became available The inclusion of these data in the extraction of the FFs yields a much more complete picture of the fragmentation process and provides a direct handle on quark, anti-quark and gluon contributions. This global FF set agrees with the previous extractions, based on e+e− data alone, in the regions of phase space which are well constrained by e+e− data alone
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