The asymptotic behaviour of parton distributions at small and large x

Richard D. Ball; Emanuele R. Nocera; Juan Rojo

doi:10.1140/epjc/s10052-016-4240-4

The asymptotic behaviour of parton distributions at small and large x

Richard D. Ball, Emanuele R. Nocera^*, Juan Rojo

^*Corresponding author for this work

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

It has been argued from the earliest days of quantum chromodynamics that at asymptotically small values of x the parton distribution functions (PDFs) of the proton behave as x^α, where the values of α can be deduced from Regge theory, while at asymptotically large values of x the PDFs behave as (1 - x) ^β, where the values of β can be deduced from the Brodsky–Farrar quark counting rules. We critically examine these claims by extracting the exponents α and β from various global fits of parton distributions, analysing their scale dependence, and comparing their values to the naive expectations. We find that for valence distributions both Regge theory and counting rules are confirmed, at least within uncertainties, while for sea quarks and gluons the results are less conclusive. We also compare results from various PDF fits for the structure function ratio F2n/F2p at large x, and caution against unrealistic uncertainty estimates due to overconstrained parametrisations.

Original language	English
Article number	383
Journal	The European Physical Journal C : Particles and Fields
Volume	76
Issue number	7
DOIs	https://doi.org/10.1140/epjc/s10052-016-4240-4
Publication status	Published - 1 Jul 2016
Externally published	Yes

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title = "The asymptotic behaviour of parton distributions at small and large x",

abstract = "It has been argued from the earliest days of quantum chromodynamics that at asymptotically small values of x the parton distribution functions (PDFs) of the proton behave as xα, where the values of α can be deduced from Regge theory, while at asymptotically large values of x the PDFs behave as (1 - x) β, where the values of β can be deduced from the Brodsky–Farrar quark counting rules. We critically examine these claims by extracting the exponents α and β from various global fits of parton distributions, analysing their scale dependence, and comparing their values to the naive expectations. We find that for valence distributions both Regge theory and counting rules are confirmed, at least within uncertainties, while for sea quarks and gluons the results are less conclusive. We also compare results from various PDF fits for the structure function ratio F2n/F2p at large x, and caution against unrealistic uncertainty estimates due to overconstrained parametrisations.",

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T1 - The asymptotic behaviour of parton distributions at small and large x

AU - Ball, Richard D.

AU - Nocera, Emanuele R.

AU - Rojo, Juan

PY - 2016/7/1

Y1 - 2016/7/1

N2 - It has been argued from the earliest days of quantum chromodynamics that at asymptotically small values of x the parton distribution functions (PDFs) of the proton behave as xα, where the values of α can be deduced from Regge theory, while at asymptotically large values of x the PDFs behave as (1 - x) β, where the values of β can be deduced from the Brodsky–Farrar quark counting rules. We critically examine these claims by extracting the exponents α and β from various global fits of parton distributions, analysing their scale dependence, and comparing their values to the naive expectations. We find that for valence distributions both Regge theory and counting rules are confirmed, at least within uncertainties, while for sea quarks and gluons the results are less conclusive. We also compare results from various PDF fits for the structure function ratio F2n/F2p at large x, and caution against unrealistic uncertainty estimates due to overconstrained parametrisations.

AB - It has been argued from the earliest days of quantum chromodynamics that at asymptotically small values of x the parton distribution functions (PDFs) of the proton behave as xα, where the values of α can be deduced from Regge theory, while at asymptotically large values of x the PDFs behave as (1 - x) β, where the values of β can be deduced from the Brodsky–Farrar quark counting rules. We critically examine these claims by extracting the exponents α and β from various global fits of parton distributions, analysing their scale dependence, and comparing their values to the naive expectations. We find that for valence distributions both Regge theory and counting rules are confirmed, at least within uncertainties, while for sea quarks and gluons the results are less conclusive. We also compare results from various PDF fits for the structure function ratio F2n/F2p at large x, and caution against unrealistic uncertainty estimates due to overconstrained parametrisations.

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JO - The European Physical Journal C : Particles and Fields

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The asymptotic behaviour of parton distributions at small and large x

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