中文

QCD Evolution Equations: Numerical Algorithms from the Laguerre Expansion

高能物理 - 唯象学 2014-11-17 v2

摘要

A complete numerical implementation, in both singlet and non-singlet sectors, of a very elegant method to solve the QCD Evolution equations, due to Furmanski and Petronzio, is presented. The algorithm is directly implemented in x-space by a Laguerre expansion of the parton distributions. All the leading-twist distributions are evolved: longitudinally polarized, transversely polarized and unpolarized, to NLO accuracy. The expansion is optimal at finite x, up to reasonably small x-values (x103x\approx 10^{-3}), below which the convergence of the expansion slows down. The polarized evolution is smoother, due to the less singular structure of the anomalous dimensions at small-x. In the region of fast convergence, which covers most of the usual perturbative applications, high numerical accuracy is achieved by expanding over a set of approximately 30 polynomials, with a very modest running time.

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引用

@article{arxiv.hep-ph/9803336,
  title  = {QCD Evolution Equations: Numerical Algorithms from the Laguerre Expansion},
  author = {Claudio Coriano and Cetin Savkli},
  journal= {arXiv preprint arXiv:hep-ph/9803336},
  year   = {2014}
}

备注

30 pages, 13 figures