English

Improved determination of strange distribution function from the global analysis using BHPS model

High Energy Physics - Phenomenology 2021-03-26 v1

Abstract

We study the impact of intrinsic strange (IS) component of nucleon sea on the global analysis of parton distribution functions (PDFs) considering a wide range of experimental data. To this aim, we consider two scenarios on the basis of BHPS model results for the IS distribution. In the first scenario, we apply the results presented through the BHPS model and in the second scenario we use its evolved distributions. For each scenarios, we present the limit of the IS probability P5ssˉ {\cal P}_5^{s\bar{s}} for the standard tolerance criteria Δχ2=1 \Delta\chi^2=1 and 18.112 18.112 at 1σ 1\sigma and 4σ 4\sigma levels. Our results show that the experimental data can tolerate an IS component with a greater probability P5ssˉ {\cal P}_5^{s\bar{s}} if one employs the second scenario. We obtain P5ssˉ0.01 {\cal P}_5^{s\bar{s}}\approx 0.01 and P5ssˉ0.025 {\cal P}_5^{s\bar{s}}\approx 0.025 for Δχ2=1 \Delta\chi^2=1 and 18.11218.112, respectively, at the 4σ 4\sigma level. We also calculate the ratio of strange-to-light sea-quark densities rsr_s in the proton both including and excluding the IS component. Our results show that one can obtain a higher value for the ratio rsr_s if the IS component is included.

Keywords

Cite

@article{arxiv.2103.13776,
  title  = {Improved determination of strange distribution function from the global analysis using BHPS model},
  author = {Maral Salajegheh and S. Mohammad Moosavi Nejad and S. Atashbar Tehrani},
  journal= {arXiv preprint arXiv:2103.13776},
  year   = {2021}
}

Comments

12 pages, 5 figs , 2 tables

R2 v1 2026-06-24T00:33:01.604Z